<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE task SYSTEM "grass-addons.dtd">
<addons version="8" revision="c54182bd7" date="2022-01-01 11:03:06.224142">
    <task name="d.explanation.plot">
        <description>Draw a plot of multiple rasters to explain a raster operation for example a + b = c</description>
        <keywords>display,manual,raster</keywords>
        <binary>
            <file>scripts/d.explanation.plot</file>
            <file>docs/man/man1/d.explanation.plot.1</file>
            <file>docs/html/d_explanation_plot.png</file>
            <file>docs/html/d.explanation.plot.html</file>
        </binary>
    </task>
    <task name="d.frame">
        <description>Manages display frames on the user's graphics monitor.</description>
        <keywords>display,graphics,monitors,frame</keywords>
        <binary>
            <file>scripts/d.frame</file>
            <file>docs/html/d_frame.png</file>
            <file>docs/html/d.frame.html</file>
            <file>docs/man/man1/d.frame.1</file>
        </binary>
    </task>
    <task name="d.mon2">
        <description>Starts a graphics display monitor which can be controlled from the command line.</description>
        <keywords>display,CLI</keywords>
        <binary>
            <file>docs/man/man1/d.mon2.1</file>
            <file>docs/html/d.mon2.html</file>
            <file>scripts/d.mon2</file>
        </binary>
    </task>
    <task name="d.region.grid">
        <description>Drapes a color raster over an shaded relief or aspect map.</description>
        <keywords>display,elevation,relief,hillshade,visualization</keywords>
        <binary>
            <file>docs/html/d_region_grid_two_rasters.png</file>
            <file>docs/html/d_region_grid_new_region_grid.png</file>
            <file>docs/html/d.region.grid.html</file>
            <file>docs/man/man1/d.region.grid.1</file>
            <file>scripts/d.region.grid</file>
        </binary>
    </task>
    <task name="d.vect.colbp">
        <description>Draws the boxplot of values in a vector attribute column</description>
        <keywords>display,vector,plot,histogram,boxplot</keywords>
        <binary>
            <file>docs/man/man1/d.vect.colbp.1</file>
            <file>docs/html/d_vect_colbp_02.png</file>
            <file>docs/html/d.vect.colbp.html</file>
            <file>docs/html/d_vect_colbp_01.png</file>
            <file>scripts/d.vect.colbp</file>
        </binary>
    </task>
    <task name="d.vect.colhist">
        <description>Draws the histogram of values in a vector attribute column</description>
        <keywords>display,vector,geology</keywords>
        <binary>
            <file>docs/man/man1/d.vect.colhist.1</file>
            <file>docs/html/d_vect_colhist.png</file>
            <file>docs/html/d.vect.colhist.html</file>
            <file>scripts/d.vect.colhist</file>
        </binary>
    </task>
    <task name="d.vect.thematic2">
        <description>Displays thematic map created from vector features and numeric attributes.</description>
        <keywords>display,cartography,vector,thematic,legend</keywords>
        <binary>
            <file>docs/man/man1/d.vect.thematic2.1</file>
            <file>docs/html/d_vect_thematic_equake.png</file>
            <file>docs/html/d.vect.thematic2.html</file>
            <file>scripts/d.vect.thematic2</file>
        </binary>
    </task>
    <task name="db.join">
        <description>Joins a database table to another database table.</description>
        <keywords>database,attribute table</keywords>
        <binary>
            <file>docs/man/man1/db.join.1</file>
            <file>docs/html/db.join.html</file>
            <file>scripts/db.join</file>
        </binary>
    </task>
    <task name="g.citation">
        <description>Provide scientific citation for GRASS modules and add-ons.</description>
        <keywords>general,metadata,citation</keywords>
        <binary>
            <file>docs/html/g.citation.html</file>
            <file>docs/man/man1/g.citation.1</file>
            <file>scripts/g.citation</file>
        </binary>
    </task>
    <task name="g.cloud">
        <description>Connects a local GRASS GIS session to another one in a cluster system.</description>
        <keywords>general,cloud computing</keywords>
        <binary>
            <file>etc/g.cloud/cloud_which.py</file>
            <file>etc/g.cloud/cloud_collect.sh</file>
            <file>etc/g.cloud/cloud_mail.sh</file>
            <file>etc/g.cloud/cloud_ssh.py</file>
            <file>etc/g.cloud/cloud_unpack.py</file>
            <file>docs/html/g.cloud.html</file>
            <file>docs/man/man1/g.cloud.1</file>
            <file>scripts/g.cloud</file>
        </binary>
    </task>
    <task name="g.compare.md5">
        <description>Checks if two GRASS GIS maps are identical.</description>
        <keywords>general,map management,list</keywords>
        <binary>
            <file>docs/html/g.compare.md5.html</file>
            <file>docs/man/man1/g.compare.md5.1</file>
            <file>scripts/g.compare.md5</file>
        </binary>
    </task>
    <task name="g.copyall">
        <description>Copies all or a filtered subset of files of selected type from another mapset to the current working mapset.</description>
        <keywords>copy,general</keywords>
        <binary>
            <file>scripts/g.copyall</file>
            <file>docs/html/g.copyall.html</file>
            <file>docs/man/man1/g.copyall.1</file>
        </binary>
    </task>
    <task name="g.download.location">
        <description>Download GRASS Location from the web Get GRASS Location from an URL or file path</description>
        <keywords>general,data,download,import</keywords>
        <binary>
            <file>scripts/g.download.location</file>
            <file>docs/man/man1/g.download.location.1</file>
            <file>docs/html/g.download.location.html</file>
        </binary>
    </task>
    <task name="g.isis3mt">
        <description>Generates an ISIS3 map template file according to the current GRASS GIS coordinate reference system.</description>
        <keywords>coordinates,projection</keywords>
        <binary>
            <file>scripts/g.isis3mt</file>
            <file>docs/man/man1/g.isis3mt.1</file>
            <file>docs/html/g.isis3mt.html</file>
        </binary>
    </task>
    <task name="g.proj.all">
        <description>Reprojects raster and vector maps from given location and mapset to current mapset.</description>
        <keywords>general,projection,transformation</keywords>
        <binary>
            <file>scripts/g.proj.all</file>
            <file>docs/man/man1/g.proj.all.1</file>
            <file>docs/html/g.proj.all.html</file>
        </binary>
    </task>
    <task name="g.proj.identify">
        <description>Autoidentifies EPSG code from WKT CRS definition.</description>
        <keywords>general,projection,EPSG,WKT,.prj</keywords>
        <binary>
            <file>docs/man/man1/g.proj.identify.1</file>
            <file>docs/html/g.proj.identify.html</file>
            <file>scripts/g.proj.identify</file>
        </binary>
    </task>
    <task name="g.projpicker">
        <description>Queries projection information spatially.</description>
        <keywords>general,projection,create location</keywords>
        <binary>
            <file>docs/man/man1/g.projpicker.1</file>
            <file>docs/html/g.projpicker.html</file>
            <file>docs/html/g_projpicker_gui.png</file>
            <file>scripts/g.projpicker</file>
        </binary>
    </task>
    <task name="g.rename.many">
        <description>Renames multiple maps in the current mapset.</description>
        <keywords>general,map management,rename</keywords>
        <binary>
            <file>scripts/g.rename.many</file>
            <file>docs/man/man1/g.rename.many.1</file>
            <file>docs/html/g.rename.many.html</file>
        </binary>
    </task>
    <task name="i.ann.maskrcnn">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/i.ann.maskrcnn.detect</file>
            <file>scripts/i.ann.maskrcnn.train</file>
            <file>docs/html/i.ann.maskrcnn.train.html</file>
            <file>docs/html/i.ann.maskrcnn.detect.html</file>
            <file>docs/html/i.ann.maskrcnn.html</file>
            <file>docs/man/man1/i.ann.maskrcnn.train.1</file>
            <file>docs/man/man1/i.ann.maskrcnn.detect.1</file>
            <file>docs/man/man1/i.ann.maskrcnn.1</file>
            <file>etc/maskrcnn/__pycache__/utils.cpython-37.pyc</file>
            <file>etc/maskrcnn/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/maskrcnn/__pycache__/config.cpython-37.pyc</file>
            <file>etc/maskrcnn/__pycache__/model.cpython-37.pyc</file>
            <file>etc/maskrcnn/__pycache__/parallel_model.cpython-37.pyc</file>
            <file>etc/maskrcnn/model.py</file>
            <file>etc/maskrcnn/parallel_model.py</file>
            <file>etc/maskrcnn/__init__.py</file>
            <file>etc/maskrcnn/config.py</file>
            <file>etc/maskrcnn/utils.py</file>
        </binary>
    </task>
    <task name="i.cutlines">
        <description>Creates semantically meaningful tile borders</description>
        <keywords>imagery,tiling</keywords>
        <binary>
            <file>docs/man/man1/i.cutlines.1</file>
            <file>docs/html/i.cutlines.html</file>
            <file>docs/html/i_cutlines_default.png</file>
            <file>docs/html/i_cutlines_canny.png</file>
            <file>scripts/i.cutlines</file>
        </binary>
    </task>
    <task name="i.cva">
        <description>Performs Change Vector Analysis (CVA) in two dimensions.</description>
        <keywords>imagery,transformation,CVA,change vector analysis</keywords>
        <binary>
            <file>docs/html/i.cva_2angleclass.png</file>
            <file>docs/html/i.cva_4change.png</file>
            <file>docs/html/i.cva_3magnitude.png</file>
            <file>docs/html/i.cva.html</file>
            <file>docs/html/i.cva_1angle.png</file>
            <file>docs/man/man1/i.cva.1</file>
            <file>scripts/i.cva</file>
        </binary>
    </task>
    <task name="i.destripe">
        <description>Destripes regularly, about vertical, striped image using Fourier.</description>
        <keywords>imagery,destripe,Fourier</keywords>
        <binary>
            <file>bin/i.destripe</file>
            <file>docs/man/man1/i.destripe.1</file>
            <file>docs/html/i.destripe.html</file>
        </binary>
    </task>
    <task name="i.eb.deltat">
        <description>Computes the difference of temperature between surface skin temperature and air temperature at 2m as part of sensible heat flux calculations.</description>
        <keywords>imagery,energy balance,SEBAL,SEBS,delta T</keywords>
        <binary>
            <file>docs/man/man1/i.eb.deltat.1</file>
            <file>docs/html/i.eb.deltat.html</file>
            <file>bin/i.eb.deltat</file>
        </binary>
    </task>
    <task name="i.eb.hsebal95">
        <description>Performs sensible heat flux iteration (SEBAL 95).</description>
        <keywords>imagery,heat flux,energy balance</keywords>
        <binary>
            <file>bin/i.eb.hsebal95</file>
            <file>docs/html/i.eb.hsebal95.html</file>
            <file>docs/man/man1/i.eb.hsebal95.1</file>
        </binary>
    </task>
    <task name="i.eb.z0m">
        <description>Computes momentum roughness length (z0m) and surface roughness for heat transport (z0h) after Bastiaanssen (2004).</description>
        <keywords>imagery,roughness length,energy balance,SEBAL</keywords>
        <binary>
            <file>docs/html/i.eb.z0m.html</file>
            <file>docs/man/man1/i.eb.z0m.1</file>
            <file>bin/i.eb.z0m</file>
        </binary>
    </task>
    <task name="i.eb.z0m0">
        <description>Computes momentum roughness length (z0m) and surface roughness for heat transport (z0h) after Bastiaanssen (2004).</description>
        <keywords>imagery,energy balance,SEBAL,SEBS,roughness length</keywords>
        <binary>
            <file>bin/i.eb.z0m0</file>
            <file>docs/html/i.eb.z0m0.html</file>
            <file>docs/man/man1/i.eb.z0m0.1</file>
        </binary>
    </task>
    <task name="i.edge">
        <description>Canny edge detector.</description>
        <keywords>raster,canny,edge detection</keywords>
        <binary>
            <file>bin/i.edge</file>
            <file>docs/man/man1/i.edge.1</file>
            <file>docs/html/i.edge.html</file>
        </binary>
    </task>
    <task name="i.evapo.potrad">
        <description>Potential evapotranspiration, radiative method after Bastiaanssen (1995)</description>
        <keywords>Potential ET,evapotranspiration</keywords>
        <binary>
            <file>bin/i.evapo.potrad</file>
            <file>docs/html/i.evapo.potrad.html</file>
            <file>docs/man/man1/i.evapo.potrad.1</file>
        </binary>
    </task>
    <task name="i.evapo.senay">
        <description>Actual evapotranspiration, method after Senay (2007)</description>
        <keywords>Actual ET,evapotranspiration,Senay</keywords>
        <binary>
            <file>bin/i.evapo.senay</file>
            <file>docs/man/man1/i.evapo.senay.1</file>
            <file>docs/html/i.evapo.senay.html</file>
        </binary>
    </task>
    <task name="i.evapo.zk">
        <description>Computes global evapotranspiration calculation after Zhang, Kimball, Nemani and Running formulation, 2010.</description>
        <keywords>imagery,evapotranspiration</keywords>
        <binary>
            <file>bin/i.evapo.zk</file>
            <file>docs/man/man1/i.evapo.zk.1</file>
            <file>docs/html/i.evapo.zk.html</file>
        </binary>
    </task>
    <task name="i.feotio2">
        <description>Calculates the FeO or TiO2 contents from the Clementine project Moon data.</description>
        <keywords>imagery,Moon,Clementine,Chandrayaan1,UVVIS,M3,FeO,TiO2,reflectance</keywords>
        <binary>
            <file>docs/man/man1/i.feotio2.1</file>
            <file>docs/html/i.feotio2.html</file>
            <file>bin/i.feotio2</file>
        </binary>
    </task>
    <task name="i.fusion.hpf">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/i_fusion_hpf_lsat7_hpf_rgb.png</file>
            <file>docs/html/i.fusion.hpf.html</file>
            <file>docs/html/i_fusion_hpf_lsat7_orig_rgb.png</file>
            <file>docs/man/man1/i.fusion.hpf.1</file>
            <file>scripts/i.fusion.hpf</file>
            <file>etc/i.fusion.hpf/high_pass_filter.py</file>
            <file>etc/i.fusion.hpf/constants.py</file>
            <file>etc/i.fusion.hpf/__pycache__/constants.cpython-37.pyc</file>
            <file>etc/i.fusion.hpf/__pycache__/high_pass_filter.cpython-37.pyc</file>
        </binary>
    </task>
    <task name="i.gabor">
        <description>Creates Gabor filter bank for a 2-dimensional image</description>
        <keywords>imagery,satellite,raster,filter,Gabor</keywords>
        <binary>
            <file>scripts/i.gabor</file>
            <file>docs/man/man1/i.gabor.1</file>
            <file>docs/html/i_gabor_individual.png</file>
            <file>docs/html/i_gabor_ortho.png</file>
            <file>docs/html/i.gabor.html</file>
            <file>docs/html/i_gabor_imaginary.png</file>
            <file>docs/html/i_gabor_segment.png</file>
            <file>docs/html/i_gabor_quant.png</file>
        </binary>
    </task>
    <task name="i.gcp">
        <description>Manages Ground Control Points (GCPs) non-interactively.</description>
        <keywords>imagery,georectification,GCP</keywords>
        <binary>
            <file>bin/i.gcp</file>
            <file>docs/man/man1/i.gcp.1</file>
            <file>docs/html/i.gcp.html</file>
        </binary>
    </task>
    <task name="i.gravity">
        <description>Bouguer gravity anomaly computation (full slab).</description>
        <keywords>imagery,gravity,Bouguer,Eotvos,Free Air</keywords>
        <binary>
            <file>bin/i.gravity</file>
            <file>docs/html/i.gravity.html</file>
            <file>docs/man/man1/i.gravity.1</file>
        </binary>
    </task>
    <task name="i.histo.match">
        <description>Calculate histogram matching of several images.</description>
        <keywords>imagery,histogram matching</keywords>
        <binary>
            <file>docs/html/i_histo_match_matched.png</file>
            <file>docs/html/i_histo_match_original.png</file>
            <file>docs/html/i.histo.match.html</file>
            <file>docs/man/man1/i.histo.match.1</file>
            <file>scripts/i.histo.match</file>
        </binary>
    </task>
    <task name="i.image.bathymetry">
        <description>Estimates Satellite Derived Bathymetry (SDB) from multispectral images.</description>
        <keywords>imagery,bathymetry,satellite</keywords>
        <binary>
            <file>docs/man/man1/i.image.bathymetry.1</file>
            <file>docs/html/i.image.bathymetry.html</file>
            <file>scripts/i.image.bathymetry</file>
        </binary>
    </task>
    <task name="i.in.probav">
        <description>Imports PROBA-V NDVI data in netCDF format into a raster map with real NDVI data range.</description>
        <keywords>imagery,import,NDVI,PROBA-V</keywords>
        <binary>
            <file>docs/html/i.in.probav.html</file>
            <file>docs/man/man1/i.in.probav.1</file>
            <file>scripts/i.in.probav</file>
        </binary>
    </task>
    <task name="i.landsat">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/i.landsat.qa</file>
            <file>scripts/i.landsat.import</file>
            <file>scripts/i.landsat.download</file>
            <file>docs/html/i.landsat.qa.html</file>
            <file>docs/html/i.landsat.download.html</file>
            <file>docs/html/i.landsat.html</file>
            <file>docs/html/i.landsat.import.html</file>
            <file>docs/man/man1/i.landsat.import.1</file>
            <file>docs/man/man1/i.landsat.1</file>
            <file>docs/man/man1/i.landsat.download.1</file>
            <file>docs/man/man1/i.landsat.qa.1</file>
        </binary>
    </task>
    <task name="i.landsat8.swlst">
        <description>Practical split-window algorithm estimating Land Surface Temperature from Landsat 8 OLI/TIRS imagery (Du, Chen; Ren, Huazhong; Qin, Qiming; Meng, Jinjie; Zhao, Shaohua. 2015)</description>
        <keywords>imagery,split window,column water vapor,land surface temperature,lst,landsat8</keywords>
        <binary>
            <file>etc/i.landsat8.swlst/csv_to_dictionary.py</file>
            <file>etc/i.landsat8.swlst/radiance.py</file>
            <file>etc/i.landsat8.swlst/data_validation.py</file>
            <file>etc/i.landsat8.swlst/temperature.py</file>
            <file>etc/i.landsat8.swlst/emissivity.py</file>
            <file>etc/i.landsat8.swlst/constants.py</file>
            <file>etc/i.landsat8.swlst/helpers.py</file>
            <file>etc/i.landsat8.swlst/split_window_lst.py</file>
            <file>etc/i.landsat8.swlst/column_water_vapor.py</file>
            <file>etc/i.landsat8.swlst/__pycache__/radiance.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/dummy_mapcalc_strings.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/randomness.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/temperature.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/csv_to_dictionary.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/split_window_lst.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/emissivity.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/constants.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/helpers.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/column_water_vapor.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/landsat8_mtl.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/__pycache__/data_validation.cpython-37.pyc</file>
            <file>etc/i.landsat8.swlst/landsat8_mtl.py</file>
            <file>etc/i.landsat8.swlst/dummy_mapcalc_strings.py</file>
            <file>etc/i.landsat8.swlst/randomness.py</file>
            <file>docs/html/i.landsat8.swlst.html</file>
            <file>docs/man/man1/i.landsat8.swlst.1</file>
            <file>scripts/i.landsat8.swlst</file>
        </binary>
    </task>
    <task name="i.lmf">
        <description>Performs Temporal Local Maximum Fitting of vegetation indices, works also for surface reflectance data.</description>
        <keywords>imagery,LMF,Vegetation Indices,Atmospheric correction,Temporal</keywords>
        <binary>
            <file>docs/html/i.lmf.html</file>
            <file>docs/man/man1/i.lmf.1</file>
            <file>bin/i.lmf</file>
        </binary>
    </task>
    <task name="i.lswt">
        <description>Computes Lake Surface Water Temperatures (inland water bodies) from TOA Brightness Temperatures.</description>
        <keywords>imagery,LSWT,MODIS,AVHRR,AATSR,SEVIRI,IMG</keywords>
        <binary>
            <file>docs/html/i.lswt.html</file>
            <file>docs/man/man1/i.lswt.1</file>
            <file>scripts/i.lswt</file>
        </binary>
    </task>
    <task name="i.modis">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>etc/i.modis/__pycache__/rmodislib.cpython-37.pyc</file>
            <file>etc/i.modis/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/i.modis/rmodislib.py</file>
            <file>etc/i.modis/__init__.py</file>
            <file>docs/html/i.modis.download.html</file>
            <file>docs/html/i.modis.html</file>
            <file>docs/html/i.modis.import.html</file>
            <file>docs/man/man1/i.modis.1</file>
            <file>docs/man/man1/i.modis.download.1</file>
            <file>docs/man/man1/i.modis.import.1</file>
            <file>scripts/i.modis.download</file>
            <file>scripts/i.modis.import</file>
        </binary>
    </task>
    <task name="i.nightlights.intercalibration">
        <description>Performs inter-satellite calibration on DMSP-OLS Nighttime Lights Time Series</description>
        <keywords>imagery,inter-satellite,calibration,nighttime lights,time series,DMSP-OLS</keywords>
        <binary>
            <file>scripts/i.nightlights.intercalibration</file>
            <file>etc/i.nightlights.intercalibration/intercalibration_models.py</file>
            <file>etc/i.nightlights.intercalibration/__pycache__/intercalibration_equations.cpython-37.pyc</file>
            <file>etc/i.nightlights.intercalibration/__pycache__/intercalibration_models.cpython-37.pyc</file>
            <file>etc/i.nightlights.intercalibration/__pycache__/intercalibration_coefficients.cpython-37.pyc</file>
            <file>etc/i.nightlights.intercalibration/intercalibration_equations.py</file>
            <file>etc/i.nightlights.intercalibration/intercalibration_coefficients.py</file>
            <file>docs/man/man1/i.nightlights.intercalibration.1</file>
            <file>docs/html/i.nightlights.intercalibration.html</file>
        </binary>
    </task>
    <task name="i.ortho.corr">
        <description>Corrects orthophoto taking part of the adjacent orthophotos using a camera angle map.</description>
        <keywords>imagery,orthorectification</keywords>
        <binary>
            <file>docs/html/i.ortho.corr.html</file>
            <file>docs/man/man1/i.ortho.corr.1</file>
            <file>scripts/i.ortho.corr</file>
        </binary>
    </task>
    <task name="i.points.auto">
        <description>Generate ground control points for image group to be rectified.</description>
        <keywords>imagery,ground control points</keywords>
        <binary>
            <file>docs/html/i.points.auto.html</file>
            <file>docs/man/man1/i.points.auto.1</file>
            <file>bin/i.points.auto</file>
        </binary>
    </task>
    <task name="i.pr">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>bin/i.pr.features_extract</file>
            <file>bin/i.pr.subsets</file>
            <file>bin/i.pr.features</file>
            <file>bin/i.pr.features_selection</file>
            <file>bin/i.pr.features_additional</file>
            <file>bin/i.pr.model</file>
            <file>bin/i.pr.blob</file>
            <file>bin/i.pr.uxb</file>
            <file>bin/i.pr.classify</file>
        </binary>
    </task>
    <task name="i.pysptools.unmix">
        <description>Extract endmembers from imagery group and perform spectral unmixing using pysptools</description>
        <keywords>imagery,endmember,spectral unmixing</keywords>
        <binary>
            <file>scripts/i.pysptools.unmix</file>
            <file>docs/man/man1/i.pysptools.unmix.1</file>
            <file>docs/html/i.pysptools.unmix.html</file>
        </binary>
    </task>
    <task name="i.rh">
        <description>Water in atmosphere: relative humidity, water vapour (saturated, actual)</description>
        <keywords>imagery,atmosphere,humidity,water vapour,precipitable water</keywords>
        <binary>
            <file>docs/html/i.rh.html</file>
            <file>docs/man/man1/i.rh.1</file>
            <file>bin/i.rh</file>
        </binary>
    </task>
    <task name="i.rotate">
        <description>Rotates the image around the centre of the computational window</description>
        <keywords>imagery,rotation,computation window centre</keywords>
        <binary>
            <file>docs/html/i.rotate.html</file>
            <file>docs/man/man1/i.rotate.1</file>
            <file>bin/i.rotate</file>
        </binary>
    </task>
    <task name="i.sar.speckle">
        <description>Remove speckle from SAR image</description>
        <keywords>imagery,speckle,sar,radar</keywords>
        <binary>
            <file>scripts/i.sar.speckle</file>
            <file>docs/man/man1/i.sar.speckle.1</file>
            <file>docs/html/i.sar.speckle.html</file>
        </binary>
    </task>
    <task name="i.segment.gsoc">
        <description>Outputs a single segmented map (raster) based on input values in an image group.</description>
        <keywords>imagery,segmentation</keywords>
        <binary>
            <file>bin/i.segment.gsoc</file>
            <file>docs/man/man1/i.segment.gsoc.1</file>
            <file>docs/html/i.segment.gsoc.html</file>
        </binary>
    </task>
    <task name="i.segment.hierarchical">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/i.segment.hierarchical.html</file>
            <file>docs/man/man1/i.segment.hierarchical.1</file>
            <file>etc/i.segment.hierarchical/isegpatch.py</file>
            <file>etc/i.segment.hierarchical/__pycache__/isegpatch.cpython-37.pyc</file>
            <file>scripts/i.segment.hierarchical</file>
        </binary>
    </task>
    <task name="i.segment.stats">
        <description>Calculates statistics describing raster areas.</description>
        <keywords>imagery,segmentation,statistics</keywords>
        <binary>
            <file>scripts/i.segment.stats</file>
            <file>docs/html/i.segment.stats.html</file>
            <file>docs/man/man1/i.segment.stats.1</file>
        </binary>
    </task>
    <task name="i.segment.uspo">
        <description>Unsupervised segmentation parameter optimization</description>
        <keywords>imagery,variance,segmentation,threshold</keywords>
        <binary>
            <file>docs/man/man1/i.segment.uspo.1</file>
            <file>docs/html/i.segment.uspo.html</file>
            <file>scripts/i.segment.uspo</file>
        </binary>
    </task>
    <task name="i.sentinel">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/i.sentinel.mask.1</file>
            <file>docs/man/man1/i.sentinel.preproc.1</file>
            <file>docs/man/man1/i.sentinel.download.1</file>
            <file>docs/man/man1/i.sentinel.import.1</file>
            <file>docs/man/man1/i.sentinel.1</file>
            <file>docs/man/man1/i.sentinel.parallel.download.1</file>
            <file>docs/man/man1/i.sentinel.coverage.1</file>
            <file>docs/html/i.sentinel.mask.html</file>
            <file>docs/html/i.sentinel.coverage.html</file>
            <file>docs/html/i_sentinel_mask_CD.png</file>
            <file>docs/html/i_sentinel_preproc_GWF.png</file>
            <file>docs/html/i.sentinel.preproc.html</file>
            <file>docs/html/i.sentinel.parallel.download.html</file>
            <file>docs/html/i_sentinel_import_with_cloud_shadow_mask_v1.png</file>
            <file>docs/html/i_sentinel_mask_GWF.png</file>
            <file>docs/html/i_sentinel_mask_indonesia_grass_gis.png</file>
            <file>docs/html/i_sentinel_import_without_cloud_mask.png</file>
            <file>docs/html/i_sentinel_mask_SD.png</file>
            <file>docs/html/i_sentinel_preproc_ES.png</file>
            <file>docs/html/i_sentinel_mask_ES.png</file>
            <file>docs/html/i.sentinel.import.html</file>
            <file>docs/html/i_sentinel_mask_CS.png</file>
            <file>docs/html/i.sentinel.html</file>
            <file>docs/html/i_sentinel_mask_indonesia_esa_sen2cor.png</file>
            <file>docs/html/i.sentinel.download.html</file>
            <file>docs/html/i_sentinel_import_with_cloud_shadow_mask_v2.png</file>
            <file>scripts/i.sentinel.coverage</file>
            <file>scripts/i.sentinel.import</file>
            <file>scripts/i.sentinel.download</file>
            <file>scripts/i.sentinel.parallel.download</file>
            <file>scripts/i.sentinel.preproc</file>
            <file>scripts/i.sentinel.mask</file>
        </binary>
    </task>
    <task name="i.signature.copy">
        <description>Copies signature file from a group/subgroup to another group/subgroup.</description>
        <keywords>imagery,map management,copy,signature,group</keywords>
        <binary>
            <file>scripts/i.signature.copy</file>
            <file>docs/man/man1/i.signature.copy.1</file>
            <file>docs/html/i.signature.copy.html</file>
        </binary>
    </task>
    <task name="i.signature.list">
        <description>Lists signature file of a group/subgroup.</description>
        <keywords>imagery,map management,list,signature,group,search</keywords>
        <binary>
            <file>scripts/i.signature.list</file>
            <file>docs/man/man1/i.signature.list.1</file>
            <file>docs/html/i.signature.list.html</file>
        </binary>
    </task>
    <task name="i.signature.remove">
        <description>Removes signature file in a group/subgroup.</description>
        <keywords>imagery,map management,remove,signature,group</keywords>
        <binary>
            <file>docs/html/i.signature.remove.html</file>
            <file>docs/man/man1/i.signature.remove.1</file>
            <file>scripts/i.signature.remove</file>
        </binary>
    </task>
    <task name="i.spec.sam">
        <description>Performs Spectral angle mapping on satellite/aerial images</description>
        <keywords>imagery,spectral angle mapping</keywords>
        <binary>
            <file>docs/html/i.spec.sam.html</file>
            <file>docs/man/man1/i.spec.sam.1</file>
            <file>bin/i.spec.sam</file>
        </binary>
    </task>
    <task name="i.spec.unmix">
        <description>Performs Spectral mixture analysis of satellite/aerial images</description>
        <keywords>imagery,spectral unmixing</keywords>
        <binary>
            <file>bin/i.spec.unmix</file>
            <file>docs/html/i.spec.unmix.html</file>
            <file>docs/html/mixed_pixels_spectrum.png</file>
            <file>docs/man/man1/i.spec.unmix.1</file>
        </binary>
    </task>
    <task name="i.superpixels.slic">
        <description>Perform image segmentation using the SLIC segmentation method.</description>
        <keywords>imagery,segmentation,superpixels,SLIC</keywords>
        <binary>
            <file>docs/man/man1/i.superpixels.slic.1</file>
            <file>docs/html/i.superpixels.slic.html</file>
            <file>docs/html/i_superpixels_slic.png</file>
            <file>bin/i.superpixels.slic</file>
        </binary>
    </task>
    <task name="i.theilsen">
        <description>Computes Theil-Sen estimator from spectrum.</description>
        <keywords>imagery,Theil-Sen,Estimator,Mann-Kendall</keywords>
        <binary>
            <file>bin/i.theilsen</file>
            <file>docs/html/i.theilsen.html</file>
            <file>docs/man/man1/i.theilsen.1</file>
        </binary>
    </task>
    <task name="i.variance">
        <description>Analyses variation of variance with variation of resolution</description>
        <keywords>imagery,variance,resolution</keywords>
        <binary>
            <file>docs/man/man1/i.variance.1</file>
            <file>docs/html/i_variance_region1.png</file>
            <file>docs/html/i.variance.html</file>
            <file>docs/html/i_variance_region3.png</file>
            <file>docs/html/i_variance_region2.png</file>
            <file>scripts/i.variance</file>
        </binary>
    </task>
    <task name="i.vi.mpi">
        <description>Calculates different types of vegetation indices (mpi) 13 types of vegetation indices from red and nir,and only some requiring additional bands</description>
        <keywords>vegetation index,biophysical parameters</keywords>
        <binary>
            <file>docs/man/man1/i.vi.mpi.1</file>
            <file>docs/html/i.vi.mpi.html</file>
            <file>bin/i.vi.mpi</file>
        </binary>
    </task>
    <task name="i.water">
        <description>Water detection from satellite data derived indices, 1 if found, 0 if not</description>
        <keywords>imagery,water,detection</keywords>
        <binary>
            <file>docs/man/man1/i.water.1</file>
            <file>docs/html/i.water.html</file>
            <file>bin/i.water</file>
        </binary>
    </task>
    <task name="i.wavelet">
        <description>Decompostion/Recomposition in temporal dimension using wavelets</description>
        <keywords>imagery,wavelet,fusion</keywords>
        <binary>
            <file>docs/html/i.wavelet.html</file>
            <file>docs/man/man1/i.wavelet.1</file>
            <file>bin/i.wavelet</file>
        </binary>
    </task>
    <task name="i.wi">
        <description>Calculates different types of water indices.</description>
        <keywords>imagery,water,index,biophysical</keywords>
        <binary>
            <file>docs/man/man1/i.wi.1</file>
            <file>docs/html/i.wi.html</file>
            <file>bin/i.wi</file>
        </binary>
    </task>
    <task name="i.zero2null">
        <description>Replaces zero values with null at edges, otherwise replaces zero values with appropriate neighboring values.</description>
        <keywords>imagery,satellite</keywords>
        <binary>
            <file>scripts/i.zero2null</file>
            <file>docs/man/man1/i.zero2null.1</file>
            <file>docs/html/i_zero2null_s2_corr.png</file>
            <file>docs/html/i_zero2null_s2_uncorr.png</file>
            <file>docs/html/i.zero2null.html</file>
        </binary>
    </task>
    <task name="m.csv.clean">
        <description>Creates a cleaned-up copy a CSV files Creates CSV files which are ready to used in GRASS GIS</description>
        <keywords>miscellaneous,CSV,ASCII</keywords>
        <binary>
            <file>docs/man/man1/m.csv.clean.1</file>
            <file>docs/html/m.csv.clean.html</file>
            <file>scripts/m.csv.clean</file>
        </binary>
    </task>
    <task name="m.gcp.filter">
        <description>Filter Ground Control Points (GCPs).</description>
        <keywords>miscellaneous,transformation,GCP</keywords>
        <binary>
            <file>bin/m.gcp.filter</file>
            <file>docs/man/man1/m.gcp.filter.1</file>
            <file>docs/html/m.gcp.filter.html</file>
        </binary>
    </task>
    <task name="m.printws">
        <description>Opens a workspace file and creates a map sheet according to its visible contents.</description>
        <keywords>map,print,layout,workspace</keywords>
        <binary>
            <file>docs/html/m.printws_pan.png</file>
            <file>docs/html/m.printws_screen.png</file>
            <file>docs/html/m.printws_smallerwindow.png</file>
            <file>docs/html/m.printws_fullwindow.png</file>
            <file>docs/html/m.printws_filledagainwindow.png</file>
            <file>docs/html/m.printws_sample_print.png</file>
            <file>docs/html/m.printws.html</file>
            <file>docs/man/man1/m.printws.1</file>
            <file>scripts/m.printws</file>
        </binary>
    </task>
    <task name="r.accumulate">
        <description>Calculates weighted flow accumulation, subwatersheds, stream networks, and longest flow paths using a flow direction map.</description>
        <keywords>raster,hydrology,accumulation,watershed,subwatershed,stream network,longest flow path</keywords>
        <binary>
            <file>docs/man/man1/r.accumulate.1</file>
            <file>docs/html/r_accumulate_nc_comparison.png</file>
            <file>docs/html/r_accumulate_formats.png</file>
            <file>docs/html/r_accumulate_nc_lfp_example_subwatersheds.png</file>
            <file>docs/html/r_accumulate_nc_lfp_example_single_warning.png</file>
            <file>docs/html/r_accumulate_nc_subwatersheds_example.png</file>
            <file>docs/html/r_accumulate_nc_stream_comparison.png</file>
            <file>docs/html/r.accumulate.html</file>
            <file>docs/html/r_accumulate_nc_example.png</file>
            <file>docs/html/r_accumulate_nc_watershed_example.png</file>
            <file>docs/html/r_accumulate_nc_stream_example.png</file>
            <file>docs/html/r_accumulate_r_watershed_nc_example.png</file>
            <file>docs/html/r_accumulate_nc_lfp_example_single.png</file>
            <file>docs/html/r_accumulate_nc_lfp_example_multiple.png</file>
            <file>bin/r.accumulate</file>
        </binary>
    </task>
    <task name="r.agent">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/r.agent.rand.html</file>
            <file>docs/html/r.agent.aco.html</file>
            <file>docs/html/r.agent.html</file>
            <file>docs/man/man1/r.agent.rand.1</file>
            <file>docs/man/man1/r.agent.aco.1</file>
            <file>docs/man/man1/r.agent.1</file>
            <file>etc/r.agent/libagent/world.py</file>
            <file>etc/r.agent/libagent/playground.py</file>
            <file>etc/r.agent/libagent/__pycache__/grassland.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/world.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/ant.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/agent.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/error.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/anthill.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/playground.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/r.agent/libagent/agent.py</file>
            <file>etc/r.agent/libagent/ant.py</file>
            <file>etc/r.agent/libagent/__init__.py</file>
            <file>etc/r.agent/libagent/anthill.py</file>
            <file>etc/r.agent/libagent/error.py</file>
            <file>etc/r.agent/libagent/grassland.py</file>
            <file>scripts/r.agent.rand</file>
            <file>scripts/r.agent.aco</file>
        </binary>
    </task>
    <task name="r.area">
        <description>Calculates area of clumped areas and remove areas smaller or greater than given threshold.</description>
        <keywords>raster,statistics,area</keywords>
        <binary>
            <file>docs/man/man1/r.area.1</file>
            <file>docs/html/r.area.html</file>
            <file>bin/r.area</file>
        </binary>
    </task>
    <task name="r.area.createweight">
        <description>Create a dasymetric weighting layer with Random Forest</description>
        <keywords>raster,statistics,density,dasymetry,resample</keywords>
        <binary>
            <file>scripts/r.area.createweight</file>
            <file>docs/html/r_area_createweight_census_initial.png</file>
            <file>docs/html/r_area_createweight_overlap_admin.png</file>
            <file>docs/html/r.area.createweight.html</file>
            <file>docs/html/r_area_createweight_importances_plot_names.png</file>
            <file>docs/html/r_area_createweight_census_final.png</file>
            <file>docs/html/r_area_createweight_gridded_spatial_units.png</file>
            <file>docs/html/r_area_createweight_census_merge.png</file>
            <file>docs/html/r_area_createweight_importances_plot_nonames.png</file>
            <file>docs/html/r_area_createweight_distance_streets.png</file>
            <file>docs/html/r_area_createweight_weights.png</file>
            <file>docs/html/r_area_createweight_input_spatial_units.png</file>
            <file>docs/man/man1/r.area.createweight.1</file>
        </binary>
    </task>
    <task name="r.basin">
        <description>Morphometric characterization of river basins</description>
        <keywords>raster,hydrology,watershed</keywords>
        <binary>
            <file>docs/man/man1/r.basin.1</file>
            <file>docs/html/r_basin2.png</file>
            <file>docs/html/r_basin_map.png</file>
            <file>docs/html/r.basin.html</file>
            <file>docs/html/r_basin1.png</file>
            <file>scripts/r.basin</file>
        </binary>
    </task>
    <task name="r.bearing.distance">
        <description>Find the bearing and/or straight-line distance from all non-null cells to the specified point.</description>
        <keywords>raster,azimuth,direction,bearing</keywords>
        <binary>
            <file>docs/html/r.bearing.distance.html</file>
            <file>docs/man/man1/r.bearing.distance.1</file>
            <file>bin/r.bearing.distance</file>
        </binary>
    </task>
    <task name="r.bioclim">
        <description>Calcuates bioclimatic indices.</description>
        <keywords>raster,time series</keywords>
        <binary>
            <file>scripts/r.bioclim</file>
            <file>docs/html/r.bioclim.html</file>
            <file>docs/man/man1/r.bioclim.1</file>
        </binary>
    </task>
    <task name="r.bitpattern">
        <description>Compares bit patterns with a raster map.</description>
        <keywords>raster,algebra</keywords>
        <binary>
            <file>docs/man/man1/r.bitpattern.1</file>
            <file>docs/html/r.bitpattern.html</file>
            <file>bin/r.bitpattern</file>
        </binary>
    </task>
    <task name="r.catchment">
        <description>Creates a raster buffer of specified area around vector points using cost distances using r.walk.</description>
        <keywords>raster,buffer</keywords>
        <binary>
            <file>docs/html/r.catchment.html</file>
            <file>docs/man/man1/r.catchment.1</file>
            <file>scripts/r.catchment</file>
        </binary>
    </task>
    <task name="r.category.trim">
        <description>Export categories and corresponding colors as QGIS colour file or csv file. Non-existing categories and their colour definitions will be removed.</description>
        <keywords>raster,color,color table,category</keywords>
        <binary>
            <file>docs/man/man1/r.category.trim.1</file>
            <file>docs/html/r.category.trim.html</file>
            <file>scripts/r.category.trim</file>
        </binary>
    </task>
    <task name="r.cell.area">
        <description>Calculate cell sizes within the computational region</description>
        <keywords>raster,statistics</keywords>
        <binary>
            <file>docs/html/r.cell.area.html</file>
            <file>docs/man/man1/r.cell.area.1</file>
            <file>scripts/r.cell.area</file>
        </binary>
    </task>
    <task name="r.centroids">
        <description>Creates vector map of centroids from raster of "clumps".</description>
        <keywords>raster,centroid,clumps,vector,centerpoint</keywords>
        <binary>
            <file>docs/html/r_centroids_basin_50K.png</file>
            <file>docs/html/r.centroids.html</file>
            <file>docs/man/man1/r.centroids.1</file>
            <file>scripts/r.centroids</file>
        </binary>
    </task>
    <task name="r.change.info">
        <description>Landscape change assessment</description>
        <keywords>raster,statistics,change detection,landscape structure</keywords>
        <binary>
            <file>bin/r.change.info</file>
            <file>docs/man/man1/r.change.info.1</file>
            <file>docs/html/r.change.info.html</file>
        </binary>
    </task>
    <task name="r.clip">
        <description>Extracts portion of the input map which overlaps with current region Extracts portion of the input raster map which is in the current computational region</description>
        <keywords>raster,extract,clip,crop,trim,extent</keywords>
        <binary>
            <file>docs/html/r.clip.html</file>
            <file>docs/man/man1/r.clip.1</file>
            <file>scripts/r.clip</file>
        </binary>
    </task>
    <task name="r.colors.contrastbrightness">
        <description>Change the contrast/brightness of a raster.</description>
        <keywords>raster,imagery,contrast,brightness</keywords>
        <binary>
            <file>bin/r.colors.contrastbrightness</file>
            <file>docs/man/man1/r.colors.contrastbrightness.1</file>
            <file>docs/html/r.colors.contrastbrightness.html</file>
        </binary>
    </task>
    <task name="r.colors.cubehelix">
        <description>Create or apply a cubehelix color table to a GRASS raster map</description>
        <keywords>raster,color table,cubehelix,seaborn</keywords>
        <binary>
            <file>docs/man/man1/r.colors.cubehelix.1</file>
            <file>docs/html/r.colors.cubehelix.html</file>
            <file>docs/html/r_colors_cubehelix.png</file>
            <file>docs/html/r_colors_cubehelix_two_colors.png</file>
            <file>scripts/r.colors.cubehelix</file>
        </binary>
    </task>
    <task name="r.colors.matplotlib">
        <description>Convert or apply a Matplotlib color table to a GRASS raster map</description>
        <keywords>raster,color table,matplotlib</keywords>
        <binary>
            <file>scripts/r.colors.matplotlib</file>
            <file>docs/man/man1/r.colors.matplotlib.1</file>
            <file>docs/html/r_colors_matplotlib_viscm_properties.png</file>
            <file>docs/html/r_colors_matplotlib_cubehelix_discrete.png</file>
            <file>docs/html/r_colors_matplotlib_viscm.png</file>
            <file>docs/html/r_colors_matplotlib.png</file>
            <file>docs/html/r.colors.matplotlib.html</file>
            <file>docs/html/r_colors_matplotlib_autumn.png</file>
            <file>docs/html/r_colors_matplotlib_viscm_edit.png</file>
            <file>docs/html/r_colors_matplotlib_gist_earth_discrete.png</file>
            <file>docs/html/r_colors_matplotlib_terrain.png</file>
            <file>docs/html/r_colors_matplotlib_gist_earth.png</file>
            <file>docs/html/r_colors_matplotlib_winter_discrete.png</file>
        </binary>
    </task>
    <task name="r.colors.out_sld">
        <description>Exports the color table associated with a raster map layer in SLD format.</description>
        <keywords>raster,export,color table</keywords>
        <binary>
            <file>docs/html/r.colors.out_sld.html</file>
            <file>docs/man/man1/r.colors.out_sld.1</file>
            <file>scripts/r.colors.out_sld</file>
        </binary>
    </task>
    <task name="r.confusionmatrix">
        <description>Calculates a confusion matrix and accuracies for a given classification using r.kappa.</description>
        <keywords>raster,statistics,accuracy,classification</keywords>
        <binary>
            <file>scripts/r.confusionmatrix</file>
            <file>docs/man/man1/r.confusionmatrix.1</file>
            <file>docs/html/r.confusionmatrix.html</file>
        </binary>
    </task>
    <task name="r.connectivity">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/r.connectivity.distance.1</file>
            <file>docs/man/man1/r.connectivity.network.1</file>
            <file>docs/man/man1/r.connectivity.1</file>
            <file>docs/man/man1/r.connectivity.corridors.1</file>
            <file>docs/html/r.connectivity.corridors.html</file>
            <file>docs/html/r_connectivity_corridors_cf_u_sum_all.png</file>
            <file>docs/html/r_connectivity_corridors_mst_eb.png</file>
            <file>docs/html/r_connectivity_distance_shortest_paths.png</file>
            <file>docs/html/r_connectivity_network_overview.png</file>
            <file>docs/html/r.connectivity.distance.html</file>
            <file>docs/html/r_connectivity_distance_costs.png</file>
            <file>docs/html/r_connectivity_distance_network.png</file>
            <file>docs/html/r_connectivity_network_ebc_udc.png</file>
            <file>docs/html/r_connectivity_network_kernel.png</file>
            <file>docs/html/r.connectivity.network.html</file>
            <file>docs/html/r_connectivity_network_deg_udc.png</file>
            <file>docs/html/r_connectivity_distance_patches.png</file>
            <file>docs/html/overview.png</file>
            <file>docs/html/r.connectivity.html</file>
            <file>scripts/r.connectivity.corridors</file>
            <file>scripts/r.connectivity.network</file>
            <file>scripts/r.connectivity.distance</file>
        </binary>
    </task>
    <task name="r.convergence">
        <description>Calculate convergence index.</description>
        <keywords>raster,terrain</keywords>
        <binary>
            <file>docs/html/conv.png</file>
            <file>docs/html/r.convergence.html</file>
            <file>docs/man/man1/r.convergence.1</file>
            <file>bin/r.convergence</file>
        </binary>
    </task>
    <task name="r.cpt2grass">
        <description>Convert or apply a GMT color table to a GRASS raster map</description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/r.cpt2grass.1</file>
            <file>docs/html/r.cpt2grass.html</file>
            <file>docs/html/r_cpt2grass_color_table_YlOrBr_09.png</file>
            <file>docs/html/r_cpt2grass_color_table_DEM_screen.png</file>
            <file>scripts/r.cpt2grass</file>
        </binary>
    </task>
    <task name="r.crater">
        <description>Creates meteorites from craters (-c) or craters from meteorites (default).</description>
        <keywords>raster,planetary,impact,meteorite,crater</keywords>
        <binary>
            <file>docs/html/r.crater.html</file>
            <file>docs/man/man1/r.crater.1</file>
            <file>bin/r.crater</file>
        </binary>
    </task>
    <task name="r.damflood">
        <description>Estimate the area potentially inundated in case of dam break</description>
        <keywords>raster,dambreak,model</keywords>
        <binary>
            <file>docs/man/man1/r.damflood.1</file>
            <file>docs/html/r.damflood.html</file>
            <file>docs/html/dam_failure.png</file>
            <file>bin/r.damflood</file>
        </binary>
    </task>
    <task name="r.denoise">
        <description>r.denoise - denoise topographic data</description>
        <keywords></keywords>
        <binary>
            <file>docs/html/r.denoise.html</file>
            <file>docs/man/man1/r.denoise.1</file>
            <file>scripts/r.denoise</file>
        </binary>
    </task>
    <task name="r.divergence">
        <description>Computes divergence of a vector field defined by magnitude and direction</description>
        <keywords>raster,divergence</keywords>
        <binary>
            <file>scripts/r.divergence</file>
            <file>docs/html/r.divergence.html</file>
            <file>docs/man/man1/r.divergence.1</file>
        </binary>
    </task>
    <task name="r.diversity">
        <description>Calculate diversity indices based on a moving window using r.li packages</description>
        <keywords>raster</keywords>
        <binary>
            <file>docs/html/r.diversity.html</file>
            <file>docs/man/man1/r.diversity.1</file>
            <file>scripts/r.diversity</file>
        </binary>
    </task>
    <task name="r.droka">
        <description>Calculates run-out distance of a falling rock mass</description>
        <keywords>rock mass,rockfall</keywords>
        <binary>
            <file>docs/html/r.droka.html</file>
            <file>docs/html/r_droka_img.png</file>
            <file>docs/man/man1/r.droka.1</file>
            <file>scripts/r.droka</file>
        </binary>
    </task>
    <task name="r.edm.eval">
        <description>Computes evaluation statistics of an environmental distribution model, based on a layer with observed and a layer with predicted values</description>
        <keywords></keywords>
        <binary>
            <file>scripts/r.edm.eval</file>
            <file>docs/html/r.edm.eval.html</file>
            <file>docs/man/man1/r.edm.eval.1</file>
        </binary>
    </task>
    <task name="r.estimap.recreation">
        <description>Implementation of ESTIMAP to support mapping and modelling of ecosystem services (Zulian, 2014)</description>
        <keywords>estimap,ecosystem services,recreation potential</keywords>
        <binary>
            <file>scripts/r.estimap.recreation</file>
            <file>docs/html/r.estimap.recreation.html</file>
            <file>docs/man/man1/r.estimap.recreation.1</file>
            <file>etc/r.estimap.recreation/estimap_recreation/colors.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/accessibility.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/utilities.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/mobility.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/spectrum.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/messages.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/supply_and_use.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/distance.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/land_component.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/infrastructure_component.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/labels.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/water_component.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/names.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/spectrum.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/demand.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/messages.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/distance.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/mobility.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/supply_and_use.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/colors.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/components.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/normalise_land.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/utilities.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/grassy_utilities.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/labels.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/infrastructure_component.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/normalisation.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/natural_component.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/land_component.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/main.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/accessibility.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__pycache__/constants.cpython-37.pyc</file>
            <file>etc/r.estimap.recreation/estimap_recreation/components.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/main.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/grassy_utilities.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/names.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/normalisation.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/natural_component.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/constants.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/demand.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/normalise_land.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/water_component.py</file>
            <file>etc/r.estimap.recreation/estimap_recreation/__init__.py</file>
        </binary>
    </task>
    <task name="r.euro.ecosystem">
        <description>Sets colors and categories of European ecosystem raster data set</description>
        <keywords>raster,color,category,ecosystem</keywords>
        <binary>
            <file>scripts/r.euro.ecosystem</file>
            <file>docs/html/r.euro.ecosystem.html</file>
            <file>docs/man/man1/r.euro.ecosystem.1</file>
        </binary>
    </task>
    <task name="r.exdet">
        <description>Quantification of novel uni- and multi-variate environments</description>
        <keywords>similarity,multivariate,raster,modelling</keywords>
        <binary>
            <file>scripts/r.exdet</file>
            <file>docs/man/man1/r.exdet.1</file>
            <file>docs/html/r.exdet.html</file>
        </binary>
    </task>
    <task name="r.extract">
        <description>Extracts specified categories of an integer input map.</description>
        <keywords>raster,extract,extent,category</keywords>
        <binary>
            <file>docs/man/man1/r.extract.1</file>
            <file>docs/html/r.extract.html</file>
            <file>scripts/r.extract</file>
        </binary>
    </task>
    <task name="r.fidimo">
        <description>Calculating fish dispersal in a river network from source populations with species specific dispersal parameters</description>
        <keywords>Fish Dispersal Model</keywords>
        <binary>
            <file>docs/html/r.fidimo.html</file>
            <file>docs/man/man1/r.fidimo.1</file>
            <file>scripts/r.fidimo</file>
        </binary>
    </task>
    <task name="r.fill.category">
        <description>Replaces the values of pixels of a given category with values of the surrounding pixels.</description>
        <keywords>raster,algebra,category</keywords>
        <binary>
            <file>docs/man/man1/r.fill.category.1</file>
            <file>docs/html/r.fill.category.html</file>
            <file>scripts/r.fill.category</file>
        </binary>
    </task>
    <task name="r.findtheriver">
        <description>Find the stream pixel nearest the input coordinate</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/man/man1/r.findtheriver.1</file>
            <file>docs/html/r.findtheriver.html</file>
            <file>bin/r.findtheriver</file>
        </binary>
    </task>
    <task name="r.flexure">
        <description>Computes lithospheric flexural isostasy</description>
        <keywords>raster,geophysics</keywords>
        <binary>
            <file>scripts/r.flexure</file>
            <file>docs/html/r.flexure.html</file>
            <file>docs/man/man1/r.flexure.1</file>
        </binary>
    </task>
    <task name="r.flip">
        <description>Flips an image. Flips an image.</description>
        <keywords>imagery,flip</keywords>
        <binary>
            <file>bin/r.flip</file>
            <file>docs/man/man1/r.flip.1</file>
            <file>docs/html/r.flip.html</file>
        </binary>
    </task>
    <task name="r.flowfill">
        <description>Moves water downhill into pools or the ocean/map edge</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/man/man1/r.flowfill.1</file>
            <file>docs/html/r.flowfill.html</file>
            <file>scripts/r.flowfill</file>
        </binary>
    </task>
    <task name="r.forestfrag">
        <description>Computes the forest fragmentation index (Riitters et al. 2000)</description>
        <keywords>raster,landscape structure analysis,forest,fragmentation index,Riitters</keywords>
        <binary>
            <file>docs/html/r_forestfrag_window_11.png</file>
            <file>docs/html/r.forestfrag.html</file>
            <file>docs/html/r_forestfrag_window_7.png</file>
            <file>docs/man/man1/r.forestfrag.1</file>
            <file>scripts/r.forestfrag</file>
        </binary>
    </task>
    <task name="r.futures">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/r.futures.pga.1</file>
            <file>docs/man/man1/r.futures.validation.1</file>
            <file>docs/man/man1/r.futures.1</file>
            <file>docs/man/man1/r.futures.potential.1</file>
            <file>docs/man/man1/r.futures.potsurface.1</file>
            <file>docs/man/man1/r.futures.parallelpga.1</file>
            <file>docs/man/man1/r.futures.gridvalidation.1</file>
            <file>docs/man/man1/r.futures.demand.1</file>
            <file>docs/man/man1/r.futures.calib.1</file>
            <file>docs/man/man1/r.futures.devpressure.1</file>
            <file>docs/html/r.futures.parallelpga.html</file>
            <file>docs/html/r_futures_ncsmp.png</file>
            <file>docs/html/r.futures.html</file>
            <file>docs/html/r.futures.potential.html</file>
            <file>docs/html/r_futures_demand_plot_logarithmic2.png</file>
            <file>docs/html/r_futures_detail.png</file>
            <file>docs/html/r.futures.demand.html</file>
            <file>docs/html/r.futures.gridvalidation.html</file>
            <file>docs/html/r_futures_scenario_status_quo.png</file>
            <file>docs/html/r.futures.pga.html</file>
            <file>docs/html/r_futures.png</file>
            <file>docs/html/r_futures_demand_plot_exp_approach.png</file>
            <file>docs/html/r_futures_potsurface.png</file>
            <file>docs/html/r_futures_scenario_sprawl.png</file>
            <file>docs/html/incentive.png</file>
            <file>docs/html/r_futures_demand_plot_linear.png</file>
            <file>docs/html/r.futures.devpressure.html</file>
            <file>docs/html/r.futures.potsurface.html</file>
            <file>docs/html/devpressure_example.png</file>
            <file>docs/html/r.futures.calib.html</file>
            <file>docs/html/r_futures_scenario_infill.png</file>
            <file>docs/html/r_futures_demand_plot_logarithmic.png</file>
            <file>docs/html/r_futures_demand_plot_exponential.png</file>
            <file>docs/html/FUTURES_inputs_diagram.png</file>
            <file>docs/html/r.futures.validation.html</file>
            <file>scripts/r.futures.devpressure</file>
            <file>scripts/r.futures.demand</file>
            <file>scripts/r.futures.validation</file>
            <file>scripts/r.futures.calib</file>
            <file>scripts/r.futures.parallelpga</file>
            <file>scripts/r.futures.gridvalidation</file>
            <file>scripts/r.futures.potential</file>
            <file>scripts/r.futures.potsurface</file>
            <file>bin/r.futures.pga</file>
        </binary>
    </task>
    <task name="r.fuzzy.logic">
        <description>Performs logical operations on membership images created with r.fuzzy.set or different method. Use families for fuzzy logic.</description>
        <keywords>raster,fuzzy logic</keywords>
        <binary>
            <file>bin/r.fuzzy.logic</file>
            <file>docs/html/r.fuzzy.logic.html</file>
            <file>docs/man/man1/r.fuzzy.logic.1</file>
        </binary>
    </task>
    <task name="r.fuzzy.set">
        <description>Calculate membership value of any raster map according user's rules.</description>
        <keywords>raster,fuzzy logic</keywords>
        <binary>
            <file>bin/r.fuzzy.set</file>
            <file>docs/html/set.png</file>
            <file>docs/html/shape.png</file>
            <file>docs/html/boundary.png</file>
            <file>docs/html/r.fuzzy.set.html</file>
            <file>docs/man/man1/r.fuzzy.set.1</file>
        </binary>
    </task>
    <task name="r.fuzzy.system">
        <description>Fuzzy logic classification system with multiple fuzzy logic families implication and defuzzification and methods.</description>
        <keywords>raster,fuzzy logic</keywords>
        <binary>
            <file>docs/man/man1/r.fuzzy.system.1</file>
            <file>docs/html/r.fuzzy.system.html</file>
            <file>docs/html/f_result.png</file>
            <file>bin/r.fuzzy.system</file>
        </binary>
    </task>
    <task name="r.gdd">
        <description>Makes each output cell value a function of the values assigned to the corresponding cells in the input raster map layers.</description>
        <keywords>raster,series</keywords>
        <binary>
            <file>docs/man/man1/r.gdd.1</file>
            <file>docs/html/r.gdd.html</file>
            <file>bin/r.gdd</file>
        </binary>
    </task>
    <task name="r.gradient">
        <description>Create a gradient map</description>
        <keywords>raster,gradient</keywords>
        <binary>
            <file>scripts/r.gradient</file>
            <file>docs/man/man1/r.gradient.1</file>
            <file>docs/html/r.gradient.html</file>
        </binary>
    </task>
    <task name="r.green">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/r.green.biomassfor.financial.html</file>
            <file>docs/html/r.green.hydro.planning.html</file>
            <file>docs/html/r.green.hydro.technical.html</file>
            <file>docs/html/r_green_hydro_theoretical_input.png</file>
            <file>docs/html/r_green_hydro_technical_input.png</file>
            <file>docs/html/r.green.biomassfor.html</file>
            <file>docs/html/r.green.hydro.discharge.html</file>
            <file>docs/html/r_green_hydro_financial_fgamma.png</file>
            <file>docs/html/r.green.hydro.discharge_output_table.png</file>
            <file>docs/html/r_green_hydro_planning_output_points.png</file>
            <file>docs/html/r_green_hydro_financial_fcompensation.png</file>
            <file>docs/html/r_green_hydro_delplants_output.png</file>
            <file>docs/html/theoretical_output.png</file>
            <file>docs/html/r_green_hydro_planning_input.png</file>
            <file>docs/html/r_green_hydro_financial_fnpv.png</file>
            <file>docs/html/r_green.png</file>
            <file>docs/html/r.green.hydro.optimal.html</file>
            <file>docs/html/r_green_hydro_financial_fexcavation.png</file>
            <file>docs/html/r_green_hydro_financial_fvu.png</file>
            <file>docs/html/r.green.gshp.technical.html</file>
            <file>docs/html/r_green_hydro_structure_input.png</file>
            <file>docs/html/r.green.hydro.discharge_output.png</file>
            <file>docs/html/legal_input.png</file>
            <file>docs/html/r_green_hydro_financial_tableeco.png</file>
            <file>docs/html/r_green_hydro_structure_picstruct.png</file>
            <file>docs/html/r_green_hydro_optimal_input.png</file>
            <file>docs/html/r_green_hydro_financial_compmap.png</file>
            <file>docs/html/r_green_hydro_planning_output_park.png</file>
            <file>docs/html/r_green_hydro_recommended_output_park.png</file>
            <file>docs/html/r_green_hydro_recommended_input_PNAM.png</file>
            <file>docs/html/r.green.hydro.html</file>
            <file>docs/html/r.green.hydro.theoretical.html</file>
            <file>docs/html/r.green.hydro.recommended.html</file>
            <file>docs/html/r_green_hydro_optimal_output.png</file>
            <file>docs/html/r.green.hydro.structure.html</file>
            <file>docs/html/r_green_hydro_recommended_output_points.png</file>
            <file>docs/html/r.green.biomassfor.co2.html</file>
            <file>docs/html/r.green.gshp.html</file>
            <file>docs/html/legal_output.png</file>
            <file>docs/html/r.green.biomassfor.theoretical.html</file>
            <file>docs/html/r.green.hydro.closest.html</file>
            <file>docs/html/r.green.html</file>
            <file>docs/html/r.green.biomassfor.recommended.html</file>
            <file>docs/html/r_green_hydro_recommended_output_PNAM3.png</file>
            <file>docs/html/r_green_hydro_financial_flinearcost.png</file>
            <file>docs/html/theoretical_input.png</file>
            <file>docs/html/r.green.biomassfor.impact.html</file>
            <file>docs/html/r_green_hydro_delplants_input.png</file>
            <file>docs/html/r_green_hydro_financial_excmap.png</file>
            <file>docs/html/r_green_hydro_technical_output.png</file>
            <file>docs/html/r.green.biomassfor.technical.html</file>
            <file>docs/html/r_green_hydro_theoretical_output.png</file>
            <file>docs/html/r_green_install_permissions.png</file>
            <file>docs/html/r.green.hydro.financial.html</file>
            <file>docs/html/r_green_hydro_theoretical_streams.png</file>
            <file>docs/html/r_green_hydro_structure_output.png</file>
            <file>docs/html/r.green.hydro.delplants.html</file>
            <file>docs/html/r.green.hydro.discharge_input.png</file>
            <file>docs/html/r.green.gshp.theoretical.html</file>
            <file>docs/html/r_green_hydro_financial_input.png</file>
            <file>docs/html/r_green_hydro_recommended_input.png</file>
            <file>docs/html/r_green_hydro_planning_output_PNAM3.png</file>
            <file>docs/html/r_green_hydro_technical_picstruct.png</file>
            <file>docs/html/r.green.install.html</file>
            <file>docs/html/r_green_hydro_planning_input_PNAM.png</file>
            <file>docs/html/r.green.biomassfor.legal.html</file>
            <file>docs/man/man1/r.green.hydro.technical.1</file>
            <file>docs/man/man1/r.green.hydro.discharge.1</file>
            <file>docs/man/man1/r.green.biomassfor.1</file>
            <file>docs/man/man1/r.green.1</file>
            <file>docs/man/man1/r.green.biomassfor.impact.1</file>
            <file>docs/man/man1/r.green.biomassfor.theoretical.1</file>
            <file>docs/man/man1/r.green.hydro.structure.1</file>
            <file>docs/man/man1/r.green.hydro.theoretical.1</file>
            <file>docs/man/man1/r.green.gshp.theoretical.1</file>
            <file>docs/man/man1/r.green.gshp.technical.1</file>
            <file>docs/man/man1/r.green.hydro.planning.1</file>
            <file>docs/man/man1/r.green.hydro.financial.1</file>
            <file>docs/man/man1/r.green.hydro.delplants.1</file>
            <file>docs/man/man1/r.green.biomassfor.technical.1</file>
            <file>docs/man/man1/r.green.biomassfor.recommended.1</file>
            <file>docs/man/man1/r.green.biomassfor.co2.1</file>
            <file>docs/man/man1/r.green.hydro.1</file>
            <file>docs/man/man1/r.green.biomassfor.legal.1</file>
            <file>docs/man/man1/r.green.hydro.optimal.1</file>
            <file>docs/man/man1/r.green.biomassfor.financial.1</file>
            <file>docs/man/man1/r.green.install.1</file>
            <file>docs/man/man1/r.green.hydro.closest.1</file>
            <file>docs/man/man1/r.green.hydro.recommended.1</file>
            <file>docs/man/man1/r.green.gshp.1</file>
            <file>etc/r.green/libforest/harvesting.py</file>
            <file>etc/r.green/libforest/__init__.py</file>
            <file>etc/r.green/libforest/financial.py</file>
            <file>etc/r.green/libforest/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/r.green/libforest/__pycache__/harvesting.cpython-37.pyc</file>
            <file>etc/r.green/libforest/__pycache__/financial.cpython-37.pyc</file>
            <file>etc/r.green/libgshp/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/r.green/libgshp/__pycache__/gpot.cpython-37.pyc</file>
            <file>etc/r.green/libgshp/__pycache__/ashrae.cpython-37.pyc</file>
            <file>etc/r.green/libgshp/gpot.py</file>
            <file>etc/r.green/libgshp/__init__.py</file>
            <file>etc/r.green/libgshp/ashrae.py</file>
            <file>etc/r.green/libgreen/checkparameter.py</file>
            <file>etc/r.green/libgreen/__init__.py</file>
            <file>etc/r.green/libgreen/utils.py</file>
            <file>etc/r.green/libgreen/__pycache__/utils.cpython-37.pyc</file>
            <file>etc/r.green/libgreen/__pycache__/checkparameter.cpython-37.pyc</file>
            <file>etc/r.green/libgreen/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/r.green/libhydro/__pycache__/optimal.cpython-37.pyc</file>
            <file>etc/r.green/libhydro/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/r.green/libhydro/__pycache__/plant.cpython-37.pyc</file>
            <file>etc/r.green/libhydro/__pycache__/basin.cpython-37.pyc</file>
            <file>etc/r.green/libhydro/basin.py</file>
            <file>etc/r.green/libhydro/optimal.py</file>
            <file>etc/r.green/libhydro/__init__.py</file>
            <file>etc/r.green/libhydro/plant.py</file>
            <file>scripts/r.green.hydro.theoretical</file>
            <file>scripts/r.green.hydro.optimal</file>
            <file>scripts/r.green.biomassfor.technical</file>
            <file>scripts/r.green.hydro.structure</file>
            <file>scripts/r.green.hydro.financial</file>
            <file>scripts/r.green.hydro.discharge</file>
            <file>scripts/r.green.biomassfor.theoretical</file>
            <file>scripts/r.green.biomassfor.co2</file>
            <file>scripts/r.green.hydro.delplants</file>
            <file>scripts/r.green.install</file>
            <file>scripts/r.green.biomassfor.legal</file>
            <file>scripts/r.green.gshp.theoretical</file>
            <file>scripts/r.green.hydro.technical</file>
            <file>scripts/r.green.hydro.closest</file>
            <file>scripts/r.green.biomassfor.financial</file>
            <file>scripts/r.green.gshp.technical</file>
            <file>scripts/r.green.biomassfor.impact</file>
            <file>scripts/r.green.hydro.recommended</file>
            <file>scripts/r.green.biomassfor.recommended</file>
            <file>scripts/r.green.hydro.planning</file>
        </binary>
    </task>
    <task name="r.gsflow.hydrodem">
        <description>Creates hydrologically correct MODFLOW DEM from higher-res DEM</description>
        <keywords>vector,stream network,hydrology,GSFLOW,GSFLOW</keywords>
        <binary>
            <file>docs/man/man1/r.gsflow.hydrodem.1</file>
            <file>docs/html/r.gsflow.hydrodem.html</file>
            <file>scripts/r.gsflow.hydrodem</file>
        </binary>
    </task>
    <task name="r.gwr">
        <description>Calculates geographically weighted regression from raster maps.</description>
        <keywords>raster,statistics,regression</keywords>
        <binary>
            <file>docs/man/man1/r.gwr.1</file>
            <file>docs/html/r.gwr.html</file>
            <file>bin/r.gwr</file>
        </binary>
    </task>
    <task name="r.hants">
        <description>Approximates a periodic time series and creates approximated output.</description>
        <keywords>raster,series,filtering</keywords>
        <binary>
            <file>docs/html/r.hants.html</file>
            <file>docs/man/man1/r.hants.1</file>
            <file>bin/r.hants</file>
        </binary>
    </task>
    <task name="r.hazard.flood">
        <description>Fast procedure to detect flood prone areas.</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/html/r.hazard.flood.html</file>
            <file>docs/man/man1/r.hazard.flood.1</file>
            <file>scripts/r.hazard.flood</file>
        </binary>
    </task>
    <task name="r.houghtransform">
        <description>Performs Hough transformation and extracts line segments from image. Region shall be set to input map. Can work only on small images since map is loaded into memory.</description>
        <keywords>raster,Hough,imagery</keywords>
        <binary>
            <file>bin/r.houghtransform</file>
            <file>docs/man/man1/r.houghtransform.1</file>
            <file>docs/html/r.houghtransform.html</file>
        </binary>
    </task>
    <task name="r.hydrodem">
        <description>Hydrological conditioning, sink removal</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>bin/r.hydrodem</file>
            <file>docs/html/r.hydrodem.html</file>
            <file>docs/man/man1/r.hydrodem.1</file>
        </binary>
    </task>
    <task name="r.hypso">
        <description>Outputs a hypsometric and hypsographic graph.</description>
        <keywords>raster</keywords>
        <binary>
            <file>docs/man/man1/r.hypso.1</file>
            <file>docs/html/r.hypso.html</file>
            <file>scripts/r.hypso</file>
        </binary>
    </task>
    <task name="r.in.nasadem">
        <description>Creates a DEM from 1 arcsec NASADEM tiles.</description>
        <keywords>raster,import,SRTM</keywords>
        <binary>
            <file>scripts/r.in.nasadem</file>
            <file>docs/html/r_in_nasadem_etna.jpg</file>
            <file>docs/html/r.in.nasadem.html</file>
            <file>docs/man/man1/r.in.nasadem.1</file>
        </binary>
    </task>
    <task name="r.in.ogc">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/r.in.ogc.html</file>
            <file>docs/html/r.in.ogc.coverages.html</file>
            <file>docs/man/man1/r.in.ogc.coverages.1</file>
            <file>docs/man/man1/r.in.ogc.1</file>
            <file>scripts/r.in.ogc.coverages</file>
        </binary>
    </task>
    <task name="r.in.pdal">
        <description>Creates a raster map from LAS LiDAR points using univariate statistics.</description>
        <keywords>raster,import,LIDAR,statistics,conversion,aggregation,binning</keywords>
        <binary>
            <file>docs/html/r.in.pdal.html</file>
            <file>docs/html/r_in_pdal_footprint.jpg</file>
            <file>docs/html/r_in_pdal.png</file>
            <file>docs/man/man1/r.in.pdal.1</file>
            <file>scripts/r.in.pdal</file>
        </binary>
    </task>
    <task name="r.in.srtm.region">
        <description>Creates a DEM from 3 arcsec SRTM v2.1 or 1 arcsec SRTM v3 tiles.</description>
        <keywords>raster,import,SRTM</keywords>
        <binary>
            <file>scripts/r.in.srtm.region</file>
            <file>docs/man/man1/r.in.srtm.region.1</file>
            <file>docs/html/r.in.srtm.region.html</file>
            <file>docs/html/r_in_srtm_region_etna.png</file>
        </binary>
    </task>
    <task name="r.in.usgs">
        <description>Download user-requested products through the USGS TNM API</description>
        <keywords>import,raster,USGS,NED,NAIP</keywords>
        <binary>
            <file>docs/html/r.in.usgs.html</file>
            <file>docs/html/r_in_usgs.png</file>
            <file>docs/man/man1/r.in.usgs.1</file>
            <file>scripts/r.in.usgs</file>
        </binary>
    </task>
    <task name="r.in.wcs">
        <description>Downloads and imports coverage from WCS server.</description>
        <keywords>raster,import,OGC web services</keywords>
        <binary>
            <file>scripts/r.in.wcs</file>
            <file>docs/man/man1/r.in.wcs.1</file>
            <file>docs/html/r.in.wcs.html</file>
        </binary>
    </task>
    <task name="r.jpdf">
        <description>From two series of input raster maps, calculates the joint probability function and outputs the probabilities of occurrence in the specified bins.</description>
        <keywords>raster,series</keywords>
        <binary>
            <file>docs/html/r.jpdf.html</file>
            <file>docs/man/man1/r.jpdf.1</file>
            <file>bin/r.jpdf</file>
        </binary>
    </task>
    <task name="r.lake.series">
        <description>Fills lake at given point(s) to given levels.</description>
        <keywords>raster,hydrology,hazard,flood</keywords>
        <binary>
            <file>scripts/r.lake.series</file>
            <file>docs/man/man1/r.lake.series.1</file>
            <file>docs/html/rural_flooding_108.jpg</file>
            <file>docs/html/r.lake.series.jpg</file>
            <file>docs/html/r.lake.series.html</file>
            <file>docs/html/rural_flooding_105.jpg</file>
        </binary>
    </task>
    <task name="r.landscape.evol">
        <description>Simulates the cumulative effect of erosion and deposition on a landscape over time.</description>
        <keywords>raster,hydrology,erosion modeling,landscape evolution</keywords>
        <binary>
            <file>scripts/r.landscape.evol</file>
            <file>docs/html/r.landscape.evol.html</file>
            <file>docs/man/man1/r.landscape.evol.1</file>
        </binary>
    </task>
    <task name="r.landscape.evol.old">
        <description>Simulates the cumulative effect of erosion and deposition on a landscape over time.</description>
        <keywords>raster,modelling</keywords>
        <binary>
            <file>docs/html/r_landscape_evol_equation3.gif</file>
            <file>docs/html/r_landscape_evol_equation4.gif</file>
            <file>docs/html/r.landscape.evol.old.html</file>
            <file>docs/html/r_landscape_evol_equation6.png</file>
            <file>docs/html/r_landscape_evol_Map1.png</file>
            <file>docs/html/r_landscape_evol_equation5.gif</file>
            <file>docs/html/r_landscape_evol_equation2.gif</file>
            <file>docs/html/r_landscape_evol_equation1.png</file>
            <file>docs/html/r_landscape_evol_Flow_acc_vs_curvature.png</file>
            <file>docs/html/r_landscape_evol_equation1.gif</file>
            <file>docs/html/r_landscape_evol_equation2.png</file>
            <file>docs/html/r_landscape_evol_equation5.png</file>
            <file>docs/html/r_landscape_evol_equation6.gif</file>
            <file>docs/html/r_landscape_evol_equation4.png</file>
            <file>docs/html/r_landscape_evol_equation3.png</file>
            <file>docs/man/man1/r.landscape.evol.old.1</file>
            <file>scripts/r.landscape.evol.old</file>
        </binary>
    </task>
    <task name="r.le.patch">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="r.le.pixel">
        <description>Contains a set of measures for attributes, diversity, texture, juxtaposition, and edge.</description>
        <keywords>raster</keywords>
        <binary>
            <file>bin/r.le.pixel</file>
            <file>docs/html/r.le.pixel.html</file>
            <file>docs/man/man1/r.le.pixel.1</file>
        </binary>
    </task>
    <task name="r.le.setup">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="r.le.trace">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="r.learn.ml">
        <description>Supervised classification and regression of GRASS rasters using the python scikit-learn package</description>
        <keywords>raster,classification,regression,machine learning,scikit-learn</keywords>
        <binary>
            <file>docs/html/rfclassification.png</file>
            <file>docs/html/r.learn.ml.html</file>
            <file>docs/html/lsat7_2000_b742.png</file>
            <file>docs/man/man1/r.learn.ml.1</file>
            <file>scripts/r.learn.ml</file>
        </binary>
    </task>
    <task name="r.learn.ml2">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/r.learn.predict</file>
            <file>scripts/r.learn.train</file>
            <file>etc/r.learn.ml2/rlearnlib/utils.py</file>
            <file>etc/r.learn.ml2/rlearnlib/indexing.py</file>
            <file>etc/r.learn.ml2/rlearnlib/transformers.py</file>
            <file>etc/r.learn.ml2/rlearnlib/stats.py</file>
            <file>etc/r.learn.ml2/rlearnlib/raster.py</file>
            <file>etc/r.learn.ml2/rlearnlib/__pycache__/utils.cpython-37.pyc</file>
            <file>etc/r.learn.ml2/rlearnlib/__pycache__/raster.cpython-37.pyc</file>
            <file>etc/r.learn.ml2/rlearnlib/__pycache__/transformers.cpython-37.pyc</file>
            <file>etc/r.learn.ml2/rlearnlib/__pycache__/indexing.cpython-37.pyc</file>
            <file>etc/r.learn.ml2/rlearnlib/__pycache__/stats.cpython-37.pyc</file>
            <file>docs/html/lsat7_2000_b742.png</file>
            <file>docs/html/rfclassification.png</file>
            <file>docs/html/r.learn.train.html</file>
            <file>docs/html/r.learn.predict.html</file>
            <file>docs/html/r.learn.ml2.html</file>
            <file>docs/man/man1/r.learn.predict.1</file>
            <file>docs/man/man1/r.learn.ml2.1</file>
            <file>docs/man/man1/r.learn.train.1</file>
        </binary>
    </task>
    <task name="r.local.relief">
        <description>Creates a local relief model from elevation map.</description>
        <keywords>raster,elevation,terrain,relief,LRM,visualization</keywords>
        <binary>
            <file>scripts/r.local.relief</file>
            <file>docs/man/man1/r.local.relief.1</file>
            <file>docs/html/r.local.relief.png</file>
            <file>docs/html/r.local.relief_redblue.png</file>
            <file>docs/html/r.local.relief.html</file>
        </binary>
    </task>
    <task name="r.mapcalc.tiled">
        <description>Runs r.mapcalc in parallel over tiles.</description>
        <keywords>raster,algebra,tiling</keywords>
        <binary>
            <file>scripts/r.mapcalc.tiled</file>
            <file>docs/man/man1/r.mapcalc.tiled.1</file>
            <file>docs/html/r.mapcalc.tiled.html</file>
        </binary>
    </task>
    <task name="r.massmov">
        <description>Estimates run-out and deposition of landslide phenomena over a complex topography.</description>
        <keywords>raster,landslide,model</keywords>
        <binary>
            <file>docs/man/man1/r.massmov.1</file>
            <file>docs/html/r.massmov.html</file>
            <file>bin/r.massmov</file>
        </binary>
    </task>
    <task name="r.maxent.lambdas">
        <description>Computes raw and/or logistic prediction maps from MaxEnt lambdas files</description>
        <keywords></keywords>
        <binary>
            <file>scripts/r.maxent.lambdas</file>
            <file>docs/html/r.maxent.lambdas.html</file>
            <file>docs/man/man1/r.maxent.lambdas.1</file>
        </binary>
    </task>
    <task name="r.mblend">
        <description>Blends two rasters of different spatial resolution.</description>
        <keywords>raster,resolution</keywords>
        <binary>
            <file>docs/html/blended.png</file>
            <file>docs/html/both_inputs.png</file>
            <file>docs/html/edges.png</file>
            <file>docs/html/r.mblend.html</file>
            <file>docs/man/man1/r.mblend.1</file>
            <file>scripts/r.mblend</file>
        </binary>
    </task>
    <task name="r.mcda.ahp">
        <description>Generates a raster map classified with analytic hierarchy process (AHP).</description>
        <keywords>raster,Analytic Hierarchy Process (AHP),Multi Criteria Decision Analysis (MCDA)</keywords>
        <binary>
            <file>docs/man/man1/r.mcda.ahp.1</file>
            <file>docs/html/r.mcda.ahp.html</file>
            <file>scripts/r.mcda.ahp</file>
        </binary>
    </task>
    <task name="r.mcda.electre">
        <description>Multicirtieria decision analysis based on ELECTRE method</description>
        <keywords>raster,MCDA</keywords>
        <binary>
            <file>docs/html/r.mcda.electre.html</file>
            <file>docs/man/man1/r.mcda.electre.1</file>
            <file>bin/r.mcda.electre</file>
        </binary>
    </task>
    <task name="r.mcda.input">
        <description>Generates a raster map classified with Dominance Rough Set Approach. Use *.rls file from JAMM, 4eMka2 etc.</description>
        <keywords>raster,Dominance Rough Set Approach,Multi Criteria Decision Analysis (MCDA)</keywords>
        <binary>
            <file>docs/html/r.mcda.input.html</file>
            <file>docs/man/man1/r.mcda.input.1</file>
            <file>scripts/r.mcda.input</file>
        </binary>
    </task>
    <task name="r.mcda.output">
        <description>Exports criteria raster maps and decision raster map in a *.isf file (e.g. 4eMka2, jMAF) for dominance rough set approach analysis.</description>
        <keywords>raster,Dominance Rough Set Approach,Multi Criteria Decision Analysis (MCDA)</keywords>
        <binary>
            <file>docs/html/r.mcda.output.html</file>
            <file>docs/man/man1/r.mcda.output.1</file>
            <file>scripts/r.mcda.output</file>
        </binary>
    </task>
    <task name="r.mcda.promethee">
        <description>Multicirtieria decision analysis based on PROMETHEE method</description>
        <keywords>raster,MCDA</keywords>
        <binary>
            <file>docs/man/man1/r.mcda.promethee.1</file>
            <file>docs/html/r.mcda.promethee.html</file>
            <file>bin/r.mcda.promethee</file>
        </binary>
    </task>
    <task name="r.mcda.roughset">
        <description>Generates a MCDA map from several criteria maps using Dominance Rough Set Approach.</description>
        <keywords>raster,Dominance Rough Set Approach,Multi Criteria Decision Analysis (MCDA)</keywords>
        <binary>
            <file>scripts/r.mcda.roughset</file>
            <file>docs/html/r.mcda.roughset.html</file>
            <file>docs/man/man1/r.mcda.roughset.1</file>
        </binary>
    </task>
    <task name="r.mcda.topsis">
        <description>Generates a MCDA map based on TOPSIS algorthm.</description>
        <keywords>raster,Multi Criteria Decision Analysis (MCDA)</keywords>
        <binary>
            <file>docs/man/man1/r.mcda.topsis.1</file>
            <file>docs/html/r.mcda.topsis.html</file>
            <file>scripts/r.mcda.topsis</file>
        </binary>
    </task>
    <task name="r.meb">
        <description>Compute the multivariate environmental bias (MEB)</description>
        <keywords>similarity,raster,modelling</keywords>
        <binary>
            <file>docs/html/r_meb_concept.png</file>
            <file>docs/html/r.meb.html</file>
            <file>docs/man/man1/r.meb.1</file>
            <file>scripts/r.meb</file>
        </binary>
    </task>
    <task name="r.mess">
        <description>Computes multivariate environmental similarity surface (MES)</description>
        <keywords>similarity,raster,modelling</keywords>
        <binary>
            <file>scripts/r.mess</file>
            <file>docs/html/r_mess_Ex_01.png</file>
            <file>docs/html/r.mess.html</file>
            <file>docs/html/r_mess_Ex_03.png</file>
            <file>docs/html/r_mess_Ex_02.png</file>
            <file>docs/man/man1/r.mess.1</file>
        </binary>
    </task>
    <task name="r.mregression.series">
        <description>Calculates multiple regression between time series: Y(t) = b1*X1(t) + ... + bn*Xn(t).</description>
        <keywords>raster,statistics,regression</keywords>
        <binary>
            <file>docs/man/man1/r.mregression.series.1</file>
            <file>docs/html/r.mregression.series.html</file>
            <file>scripts/r.mregression.series</file>
        </binary>
    </task>
    <task name="r.mwprecip">
        <description>Module for working with microwave links</description>
        <keywords>raster,microwave</keywords>
        <binary>
            <file>docs/html/r.mwprecip.html</file>
            <file>docs/man/man1/r.mwprecip.1</file>
            <file>scripts/r.mwprecip</file>
            <file>etc/r.mwprecip/__pycache__/pgwrapper.cpython-37.pyc</file>
            <file>etc/r.mwprecip/pgwrapper.py</file>
        </binary>
    </task>
    <task name="r.neighborhoodmatrix">
        <description>Calculates geometry parameters for raster objects.</description>
        <keywords>raster,statistics,reclass,clumps</keywords>
        <binary>
            <file>docs/html/r.neighborhoodmatrix.html</file>
            <file>docs/man/man1/r.neighborhoodmatrix.1</file>
            <file>bin/r.neighborhoodmatrix</file>
        </binary>
    </task>
    <task name="r.niche.similarity">
        <description>Computes niche overlap or similarity</description>
        <keywords>raster,niche modelling</keywords>
        <binary>
            <file>scripts/r.niche.similarity</file>
            <file>docs/html/r.niche.similarity.html</file>
            <file>docs/man/man1/r.niche.similarity.1</file>
        </binary>
    </task>
    <task name="r.northerness.easterness">
        <description>Calculation of northerness, easterness and the interaction between northerness and slope</description>
        <keywords>raster,terrain,aspect,slope,sun</keywords>
        <binary>
            <file>docs/html/r.northerness.easterness.html</file>
            <file>docs/man/man1/r.northerness.easterness.1</file>
            <file>scripts/r.northerness.easterness</file>
        </binary>
    </task>
    <task name="r.null.all">
        <description>Manages NULL values of raster maps in a mapset or their subset.</description>
        <keywords>raster,map management,null data,no-data</keywords>
        <binary>
            <file>scripts/r.null.all</file>
            <file>docs/html/r.null.all.html</file>
            <file>docs/man/man1/r.null.all.1</file>
        </binary>
    </task>
    <task name="r.object.activelearning">
        <description>Active learning for classifying raster objects</description>
        <keywords></keywords>
        <binary>
            <file>docs/html/r.object.activelearning.html</file>
            <file>docs/man/man1/r.object.activelearning.1</file>
            <file>scripts/r.object.activelearning</file>
        </binary>
    </task>
    <task name="r.object.geometry">
        <description>Calculates geometry parameters for raster objects.</description>
        <keywords>raster,statistics,reclass,clumps</keywords>
        <binary>
            <file>bin/r.object.geometry</file>
            <file>docs/man/man1/r.object.geometry.1</file>
            <file>docs/html/r.object.geometry.html</file>
        </binary>
    </task>
    <task name="r.object.spatialautocor">
        <description>Spatial autocorrelation of raster objects</description>
        <keywords>raster,statistics,spatial autocorrelation</keywords>
        <binary>
            <file>scripts/r.object.spatialautocor</file>
            <file>docs/html/r.object.spatialautocor.html</file>
            <file>docs/man/man1/r.object.spatialautocor.1</file>
        </binary>
    </task>
    <task name="r.object.thickness">
        <description>Evaluates minimum, maximum and mean thickness of objects of a given category on a raster map.</description>
        <keywords>raster,algebra,size,clumps</keywords>
        <binary>
            <file>scripts/r.object.thickness</file>
            <file>docs/html/r.object.thickness.html</file>
            <file>docs/man/man1/r.object.thickness.1</file>
        </binary>
    </task>
    <task name="r.out.kde">
        <description>Exports raster with variable transparency into an image file</description>
        <keywords>raster,kernel density,visualization,transparency,heatmap</keywords>
        <binary>
            <file>docs/html/r.out.kde.html</file>
            <file>docs/html/r_out_kde.png</file>
            <file>docs/man/man1/r.out.kde.1</file>
            <file>scripts/r.out.kde</file>
        </binary>
    </task>
    <task name="r.out.legend">
        <description>Create an image file showing the legend of a raster map</description>
        <keywords>raster,color,color table,image</keywords>
        <binary>
            <file>docs/html/r.out.legend.html</file>
            <file>docs/html/r_out_legend_2.png</file>
            <file>docs/html/r_out_legend_5.png</file>
            <file>docs/html/r_out_legend_4.png</file>
            <file>docs/html/r_out_legend_3.png</file>
            <file>docs/html/r_out_legend_1.png</file>
            <file>docs/man/man1/r.out.legend.1</file>
            <file>scripts/r.out.legend</file>
        </binary>
    </task>
    <task name="r.out.ntv2">
        <description>Exports NTv2 datum transformation grid</description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/r.out.ntv2.1</file>
            <file>docs/html/r.out.ntv2.html</file>
            <file>scripts/r.out.ntv2</file>
        </binary>
    </task>
    <task name="r.out.tiff">
        <description>Exports a GRASS raster map to a 8/24bit TIFF image file.</description>
        <keywords>raster,export</keywords>
        <binary>
            <file>docs/html/r.out.tiff.html</file>
            <file>docs/man/man1/r.out.tiff.1</file>
            <file>bin/r.out.tiff</file>
        </binary>
    </task>
    <task name="r.patch.smooth">
        <description>Module for patching rasters with smoothing along edges</description>
        <keywords>raster,patch</keywords>
        <binary>
            <file>scripts/r.patch.smooth</file>
            <file>docs/man/man1/r.patch.smooth.1</file>
            <file>docs/html/r_patch_smooth_parallel_smoothing.png</file>
            <file>docs/html/r_patch_smooth_overview.png</file>
            <file>docs/html/r.patch.smooth.html</file>
        </binary>
    </task>
    <task name="r.pi">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/r.pi.import.1</file>
            <file>docs/man/man1/r.pi.energy.pr.1</file>
            <file>docs/man/man1/r.pi.searchtime.mw.1</file>
            <file>docs/man/man1/r.pi.searchtime.pr.1</file>
            <file>docs/man/man1/r.pi.prox.1</file>
            <file>docs/man/man1/r.pi.energy.1</file>
            <file>docs/man/man1/r.pi.1</file>
            <file>docs/man/man1/r.pi.graph.pr.1</file>
            <file>docs/man/man1/r.pi.csr.mw.1</file>
            <file>docs/man/man1/r.pi.nlm.circ.1</file>
            <file>docs/man/man1/r.pi.corr.mw.1</file>
            <file>docs/man/man1/r.pi.corearea.1</file>
            <file>docs/man/man1/r.pi.rectangle.1</file>
            <file>docs/man/man1/r.pi.enn.1</file>
            <file>docs/man/man1/r.pi.grow.1</file>
            <file>docs/man/man1/r.pi.prob.mw.1</file>
            <file>docs/man/man1/r.pi.graph.red.1</file>
            <file>docs/man/man1/r.pi.searchtime.1</file>
            <file>docs/man/man1/r.pi.fnn.1</file>
            <file>docs/man/man1/r.pi.graph.1</file>
            <file>docs/man/man1/r.pi.lm.1</file>
            <file>docs/man/man1/r.pi.neigh.1</file>
            <file>docs/man/man1/r.pi.nlm.1</file>
            <file>docs/man/man1/r.pi.graph.dec.1</file>
            <file>docs/man/man1/r.pi.index.1</file>
            <file>docs/man/man1/r.pi.odc.1</file>
            <file>docs/man/man1/r.pi.enn.pr.1</file>
            <file>docs/man/man1/r.pi.export.1</file>
            <file>docs/man/man1/r.pi.nlm.stats.1</file>
            <file>docs/html/r.pi.searchtime.html</file>
            <file>docs/html/r.pi.nlm.html</file>
            <file>docs/html/r.pi.import.html</file>
            <file>docs/html/r.pi.enn.pr.html</file>
            <file>docs/html/r.pi.neigh.html</file>
            <file>docs/html/r.pi.rectangle.html</file>
            <file>docs/html/r.pi.csr.mw.html</file>
            <file>docs/html/r.pi.graph.html</file>
            <file>docs/html/r.pi.graph.dec.html</file>
            <file>docs/html/r.pi.energy.html</file>
            <file>docs/html/r.pi.searchtime.pr.html</file>
            <file>docs/html/r.pi.nlm.stats.html</file>
            <file>docs/html/r.pi.graph.red.html</file>
            <file>docs/html/r.pi.prox.html</file>
            <file>docs/html/r.pi.grow.html</file>
            <file>docs/html/r.pi.corearea.html</file>
            <file>docs/html/r.pi.fnn.html</file>
            <file>docs/html/r.pi.enn.html</file>
            <file>docs/html/r.pi.index.html</file>
            <file>docs/html/r.pi.graph.pr.html</file>
            <file>docs/html/r.pi.odc.html</file>
            <file>docs/html/r.pi.prob.mw.html</file>
            <file>docs/html/r.pi.nlm.circ.html</file>
            <file>docs/html/r.pi.energy.pr.html</file>
            <file>docs/html/r.pi.export.html</file>
            <file>docs/html/r.pi.html</file>
            <file>docs/html/r.pi.lm.html</file>
            <file>docs/html/r.pi.corr.mw.html</file>
            <file>docs/html/r.pi.searchtime.mw.html</file>
            <file>bin/r.pi.searchtime</file>
            <file>bin/r.pi.searchtime.pr</file>
            <file>bin/r.pi.corr.mw</file>
            <file>bin/r.pi.fnn</file>
            <file>bin/r.pi.index</file>
            <file>bin/r.pi.graph.red</file>
            <file>bin/r.pi.lm</file>
            <file>bin/r.pi.graph.dec</file>
            <file>bin/r.pi.rectangle</file>
            <file>bin/r.pi.energy.pr</file>
            <file>bin/r.pi.searchtime.mw</file>
            <file>bin/r.pi.prox</file>
            <file>bin/r.pi.enn</file>
            <file>bin/r.pi.neigh</file>
            <file>bin/r.pi.export</file>
            <file>bin/r.pi.nlm.circ</file>
            <file>bin/r.pi.energy</file>
            <file>bin/r.pi.nlm</file>
            <file>bin/r.pi.import</file>
            <file>bin/r.pi.corearea</file>
            <file>bin/r.pi.grow</file>
            <file>bin/r.pi.csr.mw</file>
            <file>bin/r.pi.prob.mw</file>
            <file>bin/r.pi.graph</file>
            <file>bin/r.pi.odc</file>
            <file>bin/r.pi.enn.pr</file>
            <file>bin/r.pi.nlm.stats</file>
            <file>bin/r.pi.graph.pr</file>
        </binary>
    </task>
    <task name="r.popgrowth">
        <description>Set of population models (fisheries science)</description>
        <keywords>Population growth model</keywords>
        <binary>
            <file>docs/man/man1/r.popgrowth.1</file>
            <file>docs/html/r.popgrowth.html</file>
            <file>scripts/r.popgrowth</file>
        </binary>
    </task>
    <task name="r.pops.spread">
        <description>A dynamic species distribution model for pest or pathogen spread in forest or agricultural ecosystems (PoPS)</description>
        <keywords>raster,spread,model,simulation,disease,pest</keywords>
        <binary>
            <file>bin/r.pops.spread</file>
            <file>docs/man/man1/r.pops.spread.1</file>
            <file>docs/html/r_pops_spread.png</file>
            <file>docs/html/r.pops.spread.html</file>
            <file>docs/html/pops_logo.png</file>
        </binary>
    </task>
    <task name="r.quantile.ref">
        <description>Determines quantile for input value from reference raster map layers.</description>
        <keywords>raster,aggregation,series,statistics,quantile</keywords>
        <binary>
            <file>docs/html/r.quantile.ref.html</file>
            <file>docs/man/man1/r.quantile.ref.1</file>
            <file>bin/r.quantile.ref</file>
        </binary>
    </task>
    <task name="r.random.weight">
        <description>Generates a binary raster layer with a random selection of raster cells depending on the weight of each cell in the input weight layer.</description>
        <keywords>raster,sampling,random</keywords>
        <binary>
            <file>docs/man/man1/r.random.weight.1</file>
            <file>docs/html/r.random.weight.html</file>
            <file>scripts/r.random.weight</file>
        </binary>
    </task>
    <task name="r.recode.attr">
        <description>Recode raster using attribute table (csv file) as input.</description>
        <keywords>raster,recode</keywords>
        <binary>
            <file>docs/man/man1/r.recode.attr.1</file>
            <file>docs/html/r.recode.attr.html</file>
            <file>scripts/r.recode.attr</file>
        </binary>
    </task>
    <task name="r.regression.series">
        <description>Makes each output cell value a function of the values assigned to the corresponding cells in the input raster map layers.</description>
        <keywords>raster,statistics,series,regression</keywords>
        <binary>
            <file>bin/r.regression.series</file>
            <file>docs/man/man1/r.regression.series.1</file>
            <file>docs/html/r.regression.series.html</file>
        </binary>
    </task>
    <task name="r.resamp.tps">
        <description>Performs thin plate spline interpolation with regularization and covariables.</description>
        <keywords>raster,surface,interpolation,TPS</keywords>
        <binary>
            <file>bin/r.resamp.tps</file>
            <file>docs/html/r.resamp.tps.html</file>
            <file>docs/man/man1/r.resamp.tps.1</file>
        </binary>
    </task>
    <task name="r.richdem.breachdepressions">
        <description>Breaches depressions using RichDEM</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/html/r.richdem.breachdepressions.html</file>
            <file>docs/man/man1/r.richdem.breachdepressions.1</file>
            <file>scripts/r.richdem.breachdepressions</file>
        </binary>
    </task>
    <task name="r.richdem.filldepressions">
        <description>Floods depressions using RichDEM</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/html/r.richdem.filldepressions.html</file>
            <file>docs/man/man1/r.richdem.filldepressions.1</file>
            <file>scripts/r.richdem.filldepressions</file>
        </binary>
    </task>
    <task name="r.richdem.flowaccumulation">
        <description>Calculates flow accumulation via one of a variety of methods.</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>scripts/r.richdem.flowaccumulation</file>
            <file>docs/html/r.richdem.flowaccumulation.html</file>
            <file>docs/man/man1/r.richdem.flowaccumulation.1</file>
        </binary>
    </task>
    <task name="r.richdem.resolveflats">
        <description>Directs flow from flat areas on depression-filled DEMs</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/man/man1/r.richdem.resolveflats.1</file>
            <file>docs/html/r.richdem.resolveflats.html</file>
            <file>scripts/r.richdem.resolveflats</file>
        </binary>
    </task>
    <task name="r.richdem.terrainattribute">
        <description>Calculates local terrain attributes.</description>
        <keywords>raster</keywords>
        <binary>
            <file>scripts/r.richdem.terrainattribute</file>
            <file>docs/man/man1/r.richdem.terrainattribute.1</file>
            <file>docs/html/r.richdem.terrainattribute.html</file>
        </binary>
    </task>
    <task name="r.rock.stability">
        <description>A tool for preliminary rock failure susceptibility mapping.</description>
        <keywords>rock mass,planar failure,toppling</keywords>
        <binary>
            <file>docs/man/man1/r.rock.stability.1</file>
            <file>docs/html/r.rock.stability.html</file>
            <file>scripts/r.rock.stability</file>
        </binary>
    </task>
    <task name="r.roughness.vector">
        <description>Calculates surface roughness in a moving-window, as the orientation of vectors normal to surface planes.</description>
        <keywords>raster,terrain,aspect,slope,roughness</keywords>
        <binary>
            <file>docs/man/man1/r.roughness.vector.1</file>
            <file>docs/html/r.roughness.vector.html</file>
            <file>scripts/r.roughness.vector</file>
        </binary>
    </task>
    <task name="r.sample.category">
        <description>Create sampling points from each category in a raster map</description>
        <keywords>raster,sampling,random,points,vector,stratified random sampling,category</keywords>
        <binary>
            <file>docs/man/man1/r.sample.category.1</file>
            <file>docs/html/r.sample.category.png</file>
            <file>docs/html/r.sample.category.html</file>
            <file>scripts/r.sample.category</file>
        </binary>
    </task>
    <task name="r.scatterplot">
        <description>Creates a scatter plot of raster maps Creates a scatter plot of two or more raster maps as a vector map</description>
        <keywords>raster,statistics,diagram,correlation,scatter plot,vector</keywords>
        <binary>
            <file>bin/r.scatterplot</file>
            <file>docs/html/r.scatterplot.html</file>
            <file>docs/html/r_scatterplot_2_variables_3rd_z.png</file>
            <file>docs/html/r_scatterplot.png</file>
            <file>docs/html/r_scatterplot_3_variables.png</file>
            <file>docs/html/r_scatterplot_2_variables_3rd_z_4th_color2.png</file>
            <file>docs/html/r_scatterplot_density_res_120.png</file>
            <file>docs/html/r_scatterplot_2_variables_3rd_z_4th_color.png</file>
            <file>docs/html/r_scatterplot_3_variables_3_colors_overlap.png</file>
            <file>docs/html/r_scatterplot_density_res_240.png</file>
            <file>docs/html/r_scatterplot_3_variables_3_colors.png</file>
            <file>docs/html/r_scatterplot_density_grid_rectangles.png</file>
            <file>docs/html/r_scatterplot_density_grid_hexagons.png</file>
            <file>docs/html/r_scatterplot_density_grid_rectangles_res_1.png</file>
            <file>docs/html/r_scatterplot_2_variables.png</file>
            <file>docs/html/r_scatterplot_density_full.png</file>
            <file>docs/html/r_scatterplot_2_variables_3rd_color.png</file>
            <file>docs/man/man1/r.scatterplot.1</file>
        </binary>
    </task>
    <task name="r.seasons">
        <description>Extracts seasons from a time series.</description>
        <keywords>raster,series,filtering</keywords>
        <binary>
            <file>bin/r.seasons</file>
            <file>docs/man/man1/r.seasons.1</file>
            <file>docs/html/time_series_ndvi.png</file>
            <file>docs/html/ndvi_season2_end1.png</file>
            <file>docs/html/number_seasons_ndvi.png</file>
            <file>docs/html/r.seasons.html</file>
            <file>docs/html/global_ndvi.png</file>
            <file>docs/html/ndvi_season2_start1.png</file>
        </binary>
    </task>
    <task name="r.series.decompose">
        <description>Calculates decomposition of time series X.</description>
        <keywords>raster,statistics,series,decomposition</keywords>
        <binary>
            <file>scripts/r.series.decompose</file>
            <file>docs/html/r.series.decompose.html</file>
            <file>docs/man/man1/r.series.decompose.1</file>
        </binary>
    </task>
    <task name="r.series.diversity">
        <description>Compute diversity indici over input layers</description>
        <keywords>raster,diversity index,renyi entrophy,shannon,simpson,richness,biodiversity,eveness</keywords>
        <binary>
            <file>docs/man/man1/r.series.diversity.1</file>
            <file>docs/html/r.series.diversity.html</file>
            <file>scripts/r.series.diversity</file>
        </binary>
    </task>
    <task name="r.series.filter">
        <description>Performs filtering of raster time series X (in time domain).</description>
        <keywords>raster,statistics,filter</keywords>
        <binary>
            <file>docs/man/man1/r.series.filter.1</file>
            <file>docs/html/signal.png</file>
            <file>docs/html/r.series.filter.html</file>
            <file>docs/html/flt.png</file>
            <file>scripts/r.series.filter</file>
        </binary>
    </task>
    <task name="r.series.lwr">
        <description>Approximates a time series and creates approximated, gap-filled output.</description>
        <keywords>raster,series,filtering</keywords>
        <binary>
            <file>docs/man/man1/r.series.lwr.1</file>
            <file>docs/html/r_series_lwr_cla_orig.png</file>
            <file>docs/html/r_series_lwr_cla_orig_lwr5.png</file>
            <file>docs/html/r_series_lwr_cla_lwr7_201281.png</file>
            <file>docs/html/r.series.lwr.html</file>
            <file>docs/html/r_series_lwr_cla_lwr3_lwr4.png</file>
            <file>docs/html/r_series_lwr_cla_lwr1_lwr2.png</file>
            <file>docs/html/r_series_lwr_cla_201281.png</file>
            <file>bin/r.series.lwr</file>
        </binary>
    </task>
    <task name="r.shaded.pca">
        <description>Creates relief shades from various directions and combines them into RGB composition. The combined shades highlight terrain features which wouldn't be visible using standard shading technique.</description>
        <keywords>raster,elevation,terrain,visualization</keywords>
        <binary>
            <file>docs/html/r.shaded.pca.html</file>
            <file>docs/html/r.shaded.pca.png</file>
            <file>docs/man/man1/r.shaded.pca.1</file>
            <file>scripts/r.shaded.pca</file>
        </binary>
    </task>
    <task name="r.shalstab">
        <description>A model for shallow landslide susceptibility.</description>
        <keywords>raster,critical rainfall,landslide</keywords>
        <binary>
            <file>docs/html/r.shalstab.html</file>
            <file>docs/man/man1/r.shalstab.1</file>
            <file>scripts/r.shalstab</file>
        </binary>
    </task>
    <task name="r.sim.terrain">
        <description>Dynamic landscape evolution model</description>
        <keywords>raster,terrain,landscape,evolution</keywords>
        <binary>
            <file>docs/man/man1/r.sim.terrain.1</file>
            <file>docs/html/r_sim_terrain.png</file>
            <file>docs/html/r_sim_terrain_rusle.png</file>
            <file>docs/html/r.sim.terrain.html</file>
            <file>scripts/r.sim.terrain</file>
        </binary>
    </task>
    <task name="r.sim.water.mp">
        <description>Overland flow hydrologic simulation using path sampling method (SIMWE).</description>
        <keywords>raster,hydrology,soil,flow,overland flow,model</keywords>
        <binary>
            <file>bin/r.sim.water.mp</file>
            <file>docs/html/r.sim.water.mp.html</file>
            <file>docs/html/r_sim_water.png</file>
            <file>docs/man/man1/r.sim.water.mp.1</file>
        </binary>
    </task>
    <task name="r.skyline">
        <description>Compute the skyline index and / or find the horizon cells in a raster viewshed.</description>
        <keywords>raster,viewshed,horizon,skyline</keywords>
        <binary>
            <file>bin/r.skyline</file>
            <file>docs/html/r.skyline.html</file>
            <file>docs/man/man1/r.skyline.1</file>
        </binary>
    </task>
    <task name="r.skyview">
        <description>Computes skyview factor visualization technique.</description>
        <keywords>raster,visualization</keywords>
        <binary>
            <file>scripts/r.skyview</file>
            <file>docs/man/man1/r.skyview.1</file>
            <file>docs/html/r.skyview.html</file>
            <file>docs/html/elevation.jpg</file>
        </binary>
    </task>
    <task name="r.slope.direction">
        <description>Calculates slope following a direction raster.</description>
        <keywords>raster,slope,direction,neighborhood,stream,trail,trac,path,road,street</keywords>
        <binary>
            <file>scripts/r.slope.direction</file>
            <file>docs/html/r_slope_direction_streets_wake_slope_5.png</file>
            <file>docs/html/r_slope_direction_fdir_slope_1.png</file>
            <file>docs/html/r_slope_direction_streets_wake_slope_13.png</file>
            <file>docs/html/r.slope.direction.html</file>
            <file>docs/html/r_slope_direction_fdir_slope_13.png</file>
            <file>docs/html/r_slope_direction_fdir_slope_5.png</file>
            <file>docs/html/r_slope_direction_streets_wake_slope_1.png</file>
            <file>docs/man/man1/r.slope.direction.1</file>
        </binary>
    </task>
    <task name="r.smooth.seg">
        <description>Generates a piece-wise smooth approximation of the input raster and a discontinuity map.</description>
        <keywords>raster,segmentation,imagery,edge detection,smoothing</keywords>
        <binary>
            <file>docs/man/man1/r.smooth.seg.1</file>
            <file>docs/html/r.smooth.seg.html</file>
            <file>bin/r.smooth.seg</file>
        </binary>
    </task>
    <task name="r.soillossbare">
        <description>Calculates annual soil loss [t/(ha*a)] for bare soil. Use r.soillosscropland.py afterwards for grown soil.</description>
        <keywords>erosion,raster,bare soil,potential soilloss</keywords>
        <binary>
            <file>scripts/r.soillossbare</file>
            <file>docs/html/r.soillossbare.html</file>
            <file>docs/man/man1/r.soillossbare.1</file>
        </binary>
    </task>
    <task name="r.soils.texture">
        <description>Define soil texture from sand and clay grid.</description>
        <keywords>raster,soil,texture</keywords>
        <binary>
            <file>bin/r.soils.texture</file>
            <file>docs/man/man1/r.soils.texture.1</file>
            <file>docs/html/r.soils.texture.html</file>
        </binary>
    </task>
    <task name="r.stream.basins">
        <description>Delineates basins according stream network. Input can be stream network, vector point map with outlets or outlet coordinates.</description>
        <keywords>raster,hydrology,stream network,basin creation</keywords>
        <binary>
            <file>bin/r.stream.basins</file>
            <file>docs/man/man1/r.stream.basins.1</file>
            <file>docs/html/r.stream.basins.html</file>
        </binary>
    </task>
    <task name="r.stream.channel">
        <description>Calculates local parameters for individual streams.</description>
        <keywords>raster,hydrology,stream network</keywords>
        <binary>
            <file>bin/r.stream.channel</file>
            <file>docs/html/r.stream.channel.html</file>
            <file>docs/man/man1/r.stream.channel.1</file>
        </binary>
    </task>
    <task name="r.stream.distance">
        <description>Calculates distance to and elevation above streams and outlet. The module can work in stream mode where target are streams and outlets mode where targets are outlets.</description>
        <keywords>raster,hydrology,stream network,watercourse distance</keywords>
        <binary>
            <file>bin/r.stream.distance</file>
            <file>docs/man/man1/r.stream.distance.1</file>
            <file>docs/html/r.stream.distance.html</file>
        </binary>
    </task>
    <task name="r.stream.order">
        <description>Calculates Strahler's and more streams hierarchy. Basic module for topological analysis of drainage network.</description>
        <keywords>raster,hydrology,stream network,stream order</keywords>
        <binary>
            <file>docs/html/orders.png</file>
            <file>docs/html/r.stream.order.html</file>
            <file>docs/man/man1/r.stream.order.1</file>
            <file>bin/r.stream.order</file>
        </binary>
    </task>
    <task name="r.stream.segment">
        <description>Divides network into near straight-line segments and calculate its order.</description>
        <keywords>raster,hydrology,stream network,stream divide</keywords>
        <binary>
            <file>bin/r.stream.segment</file>
            <file>docs/man/man1/r.stream.segment.1</file>
            <file>docs/html/sectors.png</file>
            <file>docs/html/dirs.png</file>
            <file>docs/html/r.stream.segment.html</file>
        </binary>
    </task>
    <task name="r.stream.slope">
        <description>Calculates local parameters for slope subsystem.</description>
        <keywords>raster,hydrology,stream network,stream local parameters</keywords>
        <binary>
            <file>bin/r.stream.slope</file>
            <file>docs/html/r.stream.slope.html</file>
            <file>docs/man/man1/r.stream.slope.1</file>
        </binary>
    </task>
    <task name="r.stream.snap">
        <description>Snap point to modelled stream network. Input can be stream network, point vector map with outlets or outlet coordinates.</description>
        <keywords>raster,hydrology,stream network,basins creation</keywords>
        <binary>
            <file>bin/r.stream.snap</file>
            <file>docs/man/man1/r.stream.snap.1</file>
            <file>docs/html/r.stream.snap.html</file>
        </binary>
    </task>
    <task name="r.stream.stats">
        <description>Calculates Horton's statistics for Strahler and Horton ordered networks created with r.stream.order.</description>
        <keywords>raster,hydrology,stream network,Horton's statistics</keywords>
        <binary>
            <file>bin/r.stream.stats</file>
            <file>docs/html/r.stream.stats.html</file>
            <file>docs/man/man1/r.stream.stats.1</file>
        </binary>
    </task>
    <task name="r.stream.variables">
        <description>Calculation of contiguous stream-specific variables that account for the upstream environment (based on r.stream.watersheds).</description>
        <keywords>raster,stream,drainage,hydrology</keywords>
        <binary>
            <file>docs/html/r.stream.variables.html</file>
            <file>docs/man/man1/r.stream.variables.1</file>
            <file>scripts/r.stream.variables</file>
        </binary>
    </task>
    <task name="r.stream.watersheds">
        <description>Sub-watershed and sub-stream delineation based on the drainage direction and a gridded stream network.</description>
        <keywords>raster,stream,drainage,hydrology</keywords>
        <binary>
            <file>scripts/r.stream.watersheds</file>
            <file>docs/html/r.stream.watersheds.html</file>
            <file>docs/man/man1/r.stream.watersheds.1</file>
        </binary>
    </task>
    <task name="r.subdayprecip.design">
        <description>Computes subday design precipitation totals.</description>
        <keywords>raster,hydrology,precipitation</keywords>
        <binary>
            <file>scripts/r.subdayprecip.design</file>
            <file>docs/html/r_subdayprecip_design_h_rast.png</file>
            <file>docs/html/r_subdayprecip_design_result.png</file>
            <file>docs/html/r_subdayprecip_design_basin.png</file>
            <file>docs/html/r.subdayprecip.design.html</file>
            <file>docs/man/man1/r.subdayprecip.design.1</file>
        </binary>
    </task>
    <task name="r.suitability.regions">
        <description>From suitability map to suitable regions</description>
        <keywords></keywords>
        <binary>
            <file>scripts/r.suitability.regions</file>
            <file>docs/html/option04.png</file>
            <file>docs/html/option03.png</file>
            <file>docs/html/option02.png</file>
            <file>docs/html/option05.png</file>
            <file>docs/html/option01.png</file>
            <file>docs/html/r.suitability.regions.html</file>
            <file>docs/man/man1/r.suitability.regions.1</file>
        </binary>
    </task>
    <task name="r.sun.daily">
        <description>Runs r.sun for multiple days in loop (mode 2)</description>
        <keywords>raster,solar,sun energy</keywords>
        <binary>
            <file>docs/html/r.sun.daily.html</file>
            <file>docs/man/man1/r.sun.daily.1</file>
            <file>scripts/r.sun.daily</file>
        </binary>
    </task>
    <task name="r.sun.hourly">
        <description>Runs r.sun in loop for given time range within one day (mode 1 or 2)</description>
        <keywords>raster,solar,sun energy</keywords>
        <binary>
            <file>docs/man/man1/r.sun.hourly.1</file>
            <file>docs/html/r.sun.hourly.html</file>
            <file>docs/html/r_sun_hourly.png</file>
            <file>scripts/r.sun.hourly</file>
        </binary>
    </task>
    <task name="r.sun.mp">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="r.surf.idw2">
        <description>Provides surface interpolation from raster point data by Inverse Distance Squared Weighting.</description>
        <keywords>raster,surface,interpolation,IDW</keywords>
        <binary>
            <file>docs/man/man1/r.surf.idw2.1</file>
            <file>docs/html/r.surf.idw2.html</file>
            <file>bin/r.surf.idw2</file>
        </binary>
    </task>
    <task name="r.surf.nnbathy">
        <description>Interpolates a raster map using the nnbathy natural neighbor interpolation program.</description>
        <keywords>vector,surface,interpolation,natural,neighbor</keywords>
        <binary>
            <file>scripts/r.surf.nnbathy</file>
            <file>docs/man/man1/r.surf.nnbathy.1</file>
            <file>docs/html/r.surf.nnbathy.html</file>
        </binary>
    </task>
    <task name="r.terrain.texture">
        <description>Unsupervised nested-means algorithm for terrain classification</description>
        <keywords>raster,terrain,classification</keywords>
        <binary>
            <file>scripts/r.terrain.texture</file>
            <file>docs/html/classification_example.png</file>
            <file>docs/html/r.terrain.texture.html</file>
            <file>docs/html/convexity_example.png</file>
            <file>docs/html/texture_example.png</file>
            <file>docs/html/flowchart.png</file>
            <file>docs/man/man1/r.terrain.texture.1</file>
        </binary>
    </task>
    <task name="r.texture.tiled">
        <description>Runs r.texture in parallel over tiles</description>
        <keywords>raster,texture,tiling</keywords>
        <binary>
            <file>docs/man/man1/r.texture.tiled.1</file>
            <file>docs/html/r.texture.tiled.html</file>
            <file>scripts/r.texture.tiled</file>
        </binary>
    </task>
    <task name="r.threshold">
        <description>Find optimal threshold for stream extraction</description>
        <keywords>raster,hydrology,threshold</keywords>
        <binary>
            <file>scripts/r.threshold</file>
            <file>docs/html/r.threshold.html</file>
            <file>docs/man/man1/r.threshold.1</file>
        </binary>
    </task>
    <task name="r.to.vect.lines">
        <description>Convert raster rows to vector lines.</description>
        <keywords>raster,conversion,wiggles</keywords>
        <binary>
            <file>docs/man/man1/r.to.vect.lines.1</file>
            <file>docs/html/r_to_vect_lines_example.png</file>
            <file>docs/html/r.to.vect.lines.html</file>
            <file>scripts/r.to.vect.lines</file>
        </binary>
    </task>
    <task name="r.to.vect.tiled">
        <description>Converts a raster map into vector tiles.</description>
        <keywords>raster,conversion,geometry,vectorization,tiling</keywords>
        <binary>
            <file>scripts/r.to.vect.tiled</file>
            <file>docs/html/r.to.vect.tiled.html</file>
            <file>docs/man/man1/r.to.vect.tiled.1</file>
        </binary>
    </task>
    <task name="r.tpi">
        <description>Calculates the multiscale topographic position index</description>
        <keywords>raster</keywords>
        <binary>
            <file>docs/man/man1/r.tpi.1</file>
            <file>docs/html/r_tpi.png</file>
            <file>docs/html/r.tpi.html</file>
            <file>scripts/r.tpi</file>
        </binary>
    </task>
    <task name="r.traveltime">
        <description>Estimation of travel times/isochrones. Computes the travel time of surface runoff to an outlet</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/html/r_traveltime.png</file>
            <file>docs/html/r.traveltime.html</file>
            <file>docs/man/man1/r.traveltime.1</file>
            <file>bin/r.traveltime</file>
        </binary>
    </task>
    <task name="r.tri">
        <description>Computes the Terrain Ruggedness Index.</description>
        <keywords></keywords>
        <binary>
            <file>scripts/r.tri</file>
            <file>docs/man/man1/r.tri.1</file>
            <file>docs/html/r_tri.png</file>
            <file>docs/html/r.tri.html</file>
        </binary>
    </task>
    <task name="r.univar2">
        <description>Calculates univariate statistics from the non-null cells of a raster map.</description>
        <keywords>raster,statistics,univariate statistics,zonal statistics</keywords>
        <binary>
            <file>bin/r.univar2</file>
            <file>docs/man/man1/r.univar2.1</file>
            <file>docs/html/r.univar2.html</file>
        </binary>
    </task>
    <task name="r.valley.bottom">
        <description>Calculation of Multi-resolution Valley Bottom Flatness (MrVBF) index</description>
        <keywords>raster,terrain</keywords>
        <binary>
            <file>scripts/r.valley.bottom</file>
            <file>docs/html/r_valley_bottom_mrvbf.png</file>
            <file>docs/html/r.valley.bottom.html</file>
            <file>docs/man/man1/r.valley.bottom.1</file>
        </binary>
    </task>
    <task name="r.vect.stats">
        <description>Bins vector points into a raster map.</description>
        <keywords>raster,vector,points,binning</keywords>
        <binary>
            <file>docs/man/man1/r.vect.stats.1</file>
            <file>docs/html/r.vect.stats.html</file>
            <file>docs/html/r_to_vect_schools_count.png</file>
            <file>docs/html/r_to_vect_schools_sum.png</file>
            <file>scripts/r.vect.stats</file>
        </binary>
    </task>
    <task name="r.vector.ruggedness">
        <description>Vector Ruggedness Measure</description>
        <keywords></keywords>
        <binary>
            <file>docs/man/man1/r.vector.ruggedness.1</file>
            <file>docs/html/r.vector.ruggedness.html</file>
            <file>scripts/r.vector.ruggedness</file>
        </binary>
    </task>
    <task name="r.viewshed.cva">
        <description>Undertakes a "cumulative viewshed analysis" using a vector points map as input "viewing" locations, using r.viewshed to calculate the individual viewsheds.</description>
        <keywords>raster,viewshed,line of sight,LOS</keywords>
        <binary>
            <file>scripts/r.viewshed.cva</file>
            <file>docs/html/r.viewshed.cva.html</file>
            <file>docs/man/man1/r.viewshed.cva.1</file>
        </binary>
    </task>
    <task name="r.vif">
        <description>To calculate the stepwise variance inflation factor.</description>
        <keywords>raster,variance inflation factor,VIF</keywords>
        <binary>
            <file>docs/html/r.vif.html</file>
            <file>docs/html/r_vif_example1.png</file>
            <file>docs/man/man1/r.vif.1</file>
            <file>scripts/r.vif</file>
        </binary>
    </task>
    <task name="r.vol.dem">
        <description>Creates a 3D raster model (voxels) from a series of raster DEMs</description>
        <keywords>raster,volume,conversion</keywords>
        <binary>
            <file>docs/man/man1/r.vol.dem.1</file>
            <file>docs/html/r_vol_dem_layerup.jpg</file>
            <file>docs/html/r.vol.dem.html</file>
            <file>docs/html/r_vol_dem_layerdown.jpg</file>
            <file>bin/r.vol.dem</file>
        </binary>
    </task>
    <task name="r.wateroutlet.lessmem">
        <description>Creates watershed basins from a drainage direction map.</description>
        <keywords>raster,hydrology,watershed</keywords>
        <binary>
            <file>bin/r.wateroutlet.lessmem</file>
            <file>docs/html/r.wateroutlet.lessmem.html</file>
            <file>docs/man/man1/r.wateroutlet.lessmem.1</file>
        </binary>
    </task>
    <task name="r.width.funct">
        <description>Calculates the Width Function of a watershed basin.</description>
        <keywords>raster,hydrology</keywords>
        <binary>
            <file>docs/man/man1/r.width.funct.1</file>
            <file>docs/html/r.width.funct.html</file>
            <file>scripts/r.width.funct</file>
        </binary>
    </task>
    <task name="r.zonal.classes">
        <description>Calculates zonal classes proportion describing raster areas's composition, e.g., in terms of land-cover classes.</description>
        <keywords>raster,statistics,zonal statistics</keywords>
        <binary>
            <file>docs/html/r.zonal.classes.html</file>
            <file>docs/man/man1/r.zonal.classes.1</file>
            <file>scripts/r.zonal.classes</file>
        </binary>
    </task>
    <task name="r3.count.categories">
        <description>Count categories in vertical direction</description>
        <keywords>raster3d,conversion,raster,category,voxel</keywords>
        <binary>
            <file>docs/html/r3.count.categories.html</file>
            <file>docs/man/man1/r3.count.categories.1</file>
            <file>scripts/r3.count.categories</file>
        </binary>
    </task>
    <task name="r3.forestfrag">
        <description>Computes the forest fragmentation index (Riitters et al. 2000)</description>
        <keywords>raster3d,landscape structure analysis,vegetation structure analysis,forest,fragmentation index,Riitters</keywords>
        <binary>
            <file>scripts/r3.forestfrag</file>
            <file>docs/html/r3.forestfrag.html</file>
            <file>docs/man/man1/r3.forestfrag.1</file>
        </binary>
    </task>
    <task name="r3.profile">
        <description>Outputs the raster map layer values lying on user-defined line(s).</description>
        <keywords>raster,profile</keywords>
        <binary>
            <file>bin/r3.profile</file>
            <file>docs/html/r3.profile.html</file>
            <file>docs/man/man1/r3.profile.1</file>
        </binary>
    </task>
    <task name="r3.scatterplot">
        <description>Creates a scatter plot of 3D raster maps Creates a scatter plot of two or more 3D raster maps as a vector map</description>
        <keywords>raster3d,statistics,diagram,correlation,scatter plot,vector,voxel</keywords>
        <binary>
            <file>bin/r3.scatterplot</file>
            <file>docs/man/man1/r3.scatterplot.1</file>
            <file>docs/html/r3_scatterplot_2_variables_3rd_z_4th_color2.png</file>
            <file>docs/html/r3_scatterplot.png</file>
            <file>docs/html/r3_scatterplot_2_variables_3rd_z_4th_color.png</file>
            <file>docs/html/r3.scatterplot.html</file>
            <file>docs/html/r3_scatterplot_3_variables_3_colors_overlap.png</file>
            <file>docs/html/r3_scatterplot_3_variables.png</file>
            <file>docs/html/r3_scatterplot_2_variables.png</file>
            <file>docs/html/r3_scatterplot_3_variables_3_colors.png</file>
            <file>docs/html/r3_scatterplot_2_variables_3rd_color.png</file>
            <file>docs/html/r3_scatterplot_2d.png</file>
            <file>docs/html/r3_scatterplot_2_variables_3rd_z.png</file>
        </binary>
    </task>
    <task name="r3.to.group">
        <description>Convert a 3D raster map to imagery group</description>
        <keywords>raster3d,conversion,raster,imagery,voxel,map management</keywords>
        <binary>
            <file>docs/html/r3.to.group.html</file>
            <file>docs/man/man1/r3.to.group.1</file>
            <file>scripts/r3.to.group</file>
        </binary>
    </task>
    <task name="r3.what">
        <description>Queries 3D raster in specified 2D or 3D coordinates.</description>
        <keywords>raster3d,query,voxel</keywords>
        <binary>
            <file>bin/r3.what</file>
            <file>docs/man/man1/r3.what.1</file>
            <file>docs/html/r3.what.html</file>
        </binary>
    </task>
    <task name="t.rast.kappa">
        <description>Calculate kappa parameter in a space time raster dataset</description>
        <keywords>temporal,raster,statistics</keywords>
        <binary>
            <file>docs/html/t.rast.kappa.html</file>
            <file>docs/man/man1/t.rast.kappa.1</file>
            <file>scripts/t.rast.kappa</file>
        </binary>
    </task>
    <task name="t.rast.null">
        <description>Manages NULL-values of a given space time raster dataset.</description>
        <keywords>temporal,raster,null data</keywords>
        <binary>
            <file>scripts/t.rast.null</file>
            <file>docs/man/man1/t.rast.null.1</file>
            <file>docs/html/t.rast.null.html</file>
        </binary>
    </task>
    <task name="t.rast.out.xyz">
        <description>Export space time raster dataset to a CSV file.</description>
        <keywords>temporal,raster,export,ASCII,conversion</keywords>
        <binary>
            <file>scripts/t.rast.out.xyz</file>
            <file>docs/html/t.rast.out.xyz.html</file>
            <file>docs/man/man1/t.rast.out.xyz.1</file>
        </binary>
    </task>
    <task name="t.rast.patch">
        <description>Patches multiple space time raster maps into a single raster map using r.patch.</description>
        <keywords>temporal,aggregation,series,raster,merge,patching,time</keywords>
        <binary>
            <file>docs/man/man1/t.rast.patch.1</file>
            <file>docs/html/t.rast.patch.html</file>
            <file>scripts/t.rast.patch</file>
        </binary>
    </task>
    <task name="t.rast.what.aggr">
        <description>Sample a space time raster dataset at specific vector point map returning aggregate values and write the output to stdout or to attribute table</description>
        <keywords>temporal,sampling,raster,time</keywords>
        <binary>
            <file>scripts/t.rast.what.aggr</file>
            <file>docs/man/man1/t.rast.what.aggr.1</file>
            <file>docs/html/t.rast.what.aggr.html</file>
        </binary>
    </task>
    <task name="t.rast.whatcsv">
        <description>Sample a space time raster dataset at specific space-time point coordinates from a csv file and write the output to stdout</description>
        <keywords>temporal,raster,sampling,time</keywords>
        <binary>
            <file>docs/man/man1/t.rast.whatcsv.1</file>
            <file>docs/html/t.rast.whatcsv.html</file>
            <file>scripts/t.rast.whatcsv</file>
        </binary>
    </task>
    <task name="v.area.stats">
        <description>Populates attribute values from vector features.</description>
        <keywords>vector,attribute table,database</keywords>
        <binary>
            <file>bin/v.area.stats</file>
            <file>docs/html/v.area.stats.html</file>
            <file>docs/man/man1/v.area.stats.1</file>
        </binary>
    </task>
    <task name="v.area.weigh">
        <description>Rasterize vector areas using weights</description>
        <keywords>vector,interpolation,raster</keywords>
        <binary>
            <file>docs/html/v.area.weigh.html</file>
            <file>docs/man/man1/v.area.weigh.1</file>
            <file>scripts/v.area.weigh</file>
        </binary>
    </task>
    <task name="v.build.pg">
        <description>Builds PostGIS topology for vector map linked via v.external.</description>
        <keywords>vector,external,PostGIS,topology</keywords>
        <binary>
            <file>docs/man/man1/v.build.pg.1</file>
            <file>docs/html/v.build.pg.html</file>
            <file>scripts/v.build.pg</file>
        </binary>
    </task>
    <task name="v.centerline">
        <description>Creates a central line of a map of lines</description>
        <keywords>vector,lines central</keywords>
        <binary>
            <file>docs/html/v_centerline_flightpaths.png</file>
            <file>docs/html/v.centerline.html</file>
            <file>docs/html/v_centerline_river.png</file>
            <file>docs/man/man1/v.centerline.1</file>
            <file>scripts/v.centerline</file>
        </binary>
    </task>
    <task name="v.centerpoint">
        <description>Calculate center points</description>
        <keywords>vector,geometry,center</keywords>
        <binary>
            <file>bin/v.centerpoint</file>
            <file>docs/html/v.centerpoint.html</file>
            <file>docs/man/man1/v.centerpoint.1</file>
        </binary>
    </task>
    <task name="v.civil">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/img_tables6_1.png</file>
            <file>docs/html/img8_2.png</file>
            <file>docs/html/img4_2.png</file>
            <file>docs/html/img_tables1.png</file>
            <file>docs/html/img_tables7_1.png</file>
            <file>docs/html/img2_1.png</file>
            <file>docs/html/img_a_vcivilroad_7.png</file>
            <file>docs/html/img_a_topotools_1.png</file>
            <file>docs/html/img_tables2_3.png</file>
            <file>docs/html/img7.png</file>
            <file>docs/html/img_tables4_1.png</file>
            <file>docs/html/img_tables3_2.png</file>
            <file>docs/html/img4_3.png</file>
            <file>docs/html/img1.png</file>
            <file>docs/html/img_tables5_1.png</file>
            <file>docs/html/img6.png</file>
            <file>docs/html/img_tables2_2.png</file>
            <file>docs/html/img5.png</file>
            <file>docs/html/img2.png</file>
            <file>docs/html/img_a_vert.png</file>
            <file>docs/html/img_a_tooladdrow.png</file>
            <file>docs/html/img_tables4_2.png</file>
            <file>docs/html/img_tables3_1.png</file>
            <file>docs/html/img6_1.png</file>
            <file>docs/html/img_tables3.png</file>
            <file>docs/html/img3.png</file>
            <file>docs/html/img4.png</file>
            <file>docs/html/img8_1.png</file>
            <file>docs/html/img3_2.png</file>
            <file>docs/html/v.civil.html</file>
            <file>docs/html/img4_1.png</file>
            <file>docs/html/img_tables2.png</file>
            <file>docs/html/img_a_plan.png</file>
            <file>docs/man/man1/v.civil.1</file>
            <file>scripts/v.civil</file>
            <file>etc/v.civil/road_road.py</file>
            <file>etc/v.civil/road_base.py</file>
            <file>etc/v.civil/road_terr.py</file>
            <file>etc/v.civil/road_profiles.py</file>
            <file>etc/v.civil/road_plant.py</file>
            <file>etc/v.civil/road_topotools.py</file>
            <file>etc/v.civil/road_vertical.py</file>
            <file>etc/v.civil/__pycache__/road_base.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_displ.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_vertical.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_road.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_tables.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_topotools.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_terr.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_profiles.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_marks.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_plant.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_crosstools.cpython-37.pyc</file>
            <file>etc/v.civil/__pycache__/road_trans.cpython-37.pyc</file>
            <file>etc/v.civil/road_trans.py</file>
            <file>etc/v.civil/road_tables.py</file>
            <file>etc/v.civil/road_displ.py</file>
            <file>etc/v.civil/road_crosstools.py</file>
            <file>etc/v.civil/road_marks.py</file>
        </binary>
    </task>
    <task name="v.class.ml">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/v.class.ml.html</file>
            <file>docs/man/man1/v.class.ml.1</file>
            <file>etc/v.class.ml/training_extraction.py</file>
            <file>etc/v.class.ml/sqlite2npy.py</file>
            <file>etc/v.class.ml/npy2table.py</file>
            <file>etc/v.class.ml/ml_functions.py</file>
            <file>etc/v.class.ml/ml_classifiers.py</file>
            <file>etc/v.class.ml/features.py</file>
            <file>etc/v.class.ml/__pycache__/features.cpython-37.pyc</file>
            <file>etc/v.class.ml/__pycache__/npy2table.cpython-37.pyc</file>
            <file>etc/v.class.ml/__pycache__/training_extraction.cpython-37.pyc</file>
            <file>etc/v.class.ml/__pycache__/sqlite2npy.cpython-37.pyc</file>
            <file>etc/v.class.ml/__pycache__/ml_classifiers.cpython-37.pyc</file>
            <file>etc/v.class.ml/__pycache__/ml_functions.cpython-37.pyc</file>
            <file>scripts/v.class.ml</file>
        </binary>
    </task>
    <task name="v.class.mlR">
        <description>Provides supervised support vector machine classification</description>
        <keywords>classification,machine learning,R,classifiers</keywords>
        <binary>
            <file>docs/man/man1/v.class.mlR.1</file>
            <file>docs/html/v.class.mlR.html</file>
            <file>scripts/v.class.mlR</file>
        </binary>
    </task>
    <task name="v.class.mlpy">
        <description>Vector supervised classification tool which uses attributes as classification parametres (order of columns matters, names not), cat column identifies feature, class_column is excluded from classification parametres.</description>
        <keywords>vector,classification,supervised,machine learning</keywords>
        <binary>
            <file>docs/html/v.class.mlpy.html</file>
            <file>docs/man/man1/v.class.mlpy.1</file>
            <file>scripts/v.class.mlpy</file>
        </binary>
    </task>
    <task name="v.clean.ogr">
        <description>Imports vector data into a GRASS vector map, cleans the data topologically, and exports them again using OGR library.</description>
        <keywords>vector,cleaning,OGR,topology,geometry,snapping</keywords>
        <binary>
            <file>docs/html/v.clean.ogr.html</file>
            <file>docs/man/man1/v.clean.ogr.1</file>
            <file>scripts/v.clean.ogr</file>
        </binary>
    </task>
    <task name="v.colors2">
        <description>Sets color rules for features in a vector map using a numeric attribute column.</description>
        <keywords>vector,color table</keywords>
        <binary>
            <file>scripts/v.colors2</file>
            <file>docs/html/v.colors2.html</file>
            <file>docs/man/man1/v.colors2.1</file>
        </binary>
    </task>
    <task name="v.concave.hull">
        <description>Creates a concave hull around points.</description>
        <keywords>vector,geometry,alpha shape</keywords>
        <binary>
            <file>scripts/v.concave.hull</file>
            <file>docs/man/man1/v.concave.hull.1</file>
            <file>docs/html/v_concave_alpha_0_5.png</file>
            <file>docs/html/v_concave_alpha_8.png</file>
            <file>docs/html/v.concave.hull.html</file>
            <file>docs/html/v_concave_concave.png</file>
            <file>docs/html/v_concave_convex.png</file>
        </binary>
    </task>
    <task name="v.convert">
        <description>Imports older versions of GRASS vector maps.</description>
        <keywords>vector,import,conversion</keywords>
        <binary>
            <file>bin/v.convert</file>
            <file>docs/html/v.convert.html</file>
            <file>docs/man/man1/v.convert.1</file>
        </binary>
    </task>
    <task name="v.convert.all">
        <description>Converts all older versions of GRASS vector maps in current mapset to current format.</description>
        <keywords>vector,import,conversion</keywords>
        <binary>
            <file>docs/man/man1/v.convert.all.1</file>
            <file>docs/html/v.convert.all.html</file>
            <file>scripts/v.convert.all</file>
        </binary>
    </task>
    <task name="v.db.pyupdate">
        <description>Updates a column in a vector attribute table using Python code</description>
        <keywords>vector,attribute table,database,attribute update,Python</keywords>
        <binary>
            <file>docs/man/man1/v.db.pyupdate.1</file>
            <file>docs/html/v.db.pyupdate.html</file>
            <file>scripts/v.db.pyupdate</file>
        </binary>
    </task>
    <task name="v.delaunay3d">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="v.ellipse">
        <description>Computes the best-fitting ellipse for given vector data.</description>
        <keywords>vector,geometry,best-fitting ellipse</keywords>
        <binary>
            <file>docs/html/v_ellipse.png</file>
            <file>docs/html/v.ellipse.html</file>
            <file>docs/man/man1/v.ellipse.1</file>
            <file>bin/v.ellipse</file>
        </binary>
    </task>
    <task name="v.explode">
        <description>"Explode" polylines, splitting them to separate lines (uses v.split + v.category)</description>
        <keywords>display,graphics,vector,symbology</keywords>
        <binary>
            <file>docs/html/v.explode.html</file>
            <file>docs/man/man1/v.explode.1</file>
            <file>scripts/v.explode</file>
        </binary>
    </task>
    <task name="v.external.all">
        <description>Links all OGR layers available in given OGR datasource.</description>
        <keywords>vector,external</keywords>
        <binary>
            <file>scripts/v.external.all</file>
            <file>docs/man/man1/v.external.all.1</file>
            <file>docs/html/v.external.all.html</file>
        </binary>
    </task>
    <task name="v.faultdirections">
        <description>Creates a polar plot of fault directions</description>
        <keywords>display,vector,geology</keywords>
        <binary>
            <file>scripts/v.faultdirections</file>
            <file>docs/man/man1/v.faultdirections.1</file>
            <file>docs/html/v.faultdirections.html</file>
        </binary>
    </task>
    <task name="v.fixed.segmentpoints">
        <description>segment points along a vector line with fixed distances</description>
        <keywords>vector,geometry</keywords>
        <binary>
            <file>docs/man/man1/v.fixed.segmentpoints.1</file>
            <file>docs/html/v.fixed.segmentpoints.html</file>
            <file>scripts/v.fixed.segmentpoints</file>
        </binary>
    </task>
    <task name="v.flexure">
        <description>Lithospheric flexure: gridded deflections from scattered point loads</description>
        <keywords>vector,geophysics</keywords>
        <binary>
            <file>docs/html/v.flexure.html</file>
            <file>docs/man/man1/v.flexure.1</file>
            <file>scripts/v.flexure</file>
        </binary>
    </task>
    <task name="v.greedycolors">
        <description>Create greedy colors for vector areas.</description>
        <keywords>vector,color table</keywords>
        <binary>
            <file>bin/v.greedycolors</file>
            <file>docs/html/v.greedycolors.html</file>
            <file>docs/man/man1/v.greedycolors.1</file>
        </binary>
    </task>
    <task name="v.gsflow.export">
        <description>Export databse tables and pour point for GSFLOW input and control files</description>
        <keywords>vector,stream network,hydrology,GSFLOW</keywords>
        <binary>
            <file>scripts/v.gsflow.export</file>
            <file>docs/html/v.gsflow.export.html</file>
            <file>docs/man/man1/v.gsflow.export.1</file>
        </binary>
    </task>
    <task name="v.gsflow.gravres">
        <description>Set parameters for GSFLOW Hydrologic Response Units (HRUs)</description>
        <keywords>vector,stream network,hydrology,GSFLOW</keywords>
        <binary>
            <file>docs/html/v.gsflow.gravres.html</file>
            <file>docs/man/man1/v.gsflow.gravres.1</file>
            <file>scripts/v.gsflow.gravres</file>
        </binary>
    </task>
    <task name="v.gsflow.grid">
        <description>Builds grid for the MODFLOW component of GSFLOW</description>
        <keywords>vector,stream network,hydrology,GSFLOW</keywords>
        <binary>
            <file>docs/html/v.gsflow.grid.html</file>
            <file>docs/man/man1/v.gsflow.grid.1</file>
            <file>scripts/v.gsflow.grid</file>
        </binary>
    </task>
    <task name="v.gsflow.hruparams">
        <description>Set parameters for GSFLOW Hydrologic Response Units (HRUs)</description>
        <keywords>vector,stream network,hydrology,GSFLOW</keywords>
        <binary>
            <file>docs/man/man1/v.gsflow.hruparams.1</file>
            <file>docs/html/v.gsflow.hruparams.html</file>
            <file>scripts/v.gsflow.hruparams</file>
        </binary>
    </task>
    <task name="v.gsflow.mapdata">
        <description>Upload data to PRMS data</description>
        <keywords>vector,import,hydrology,GSFLOW</keywords>
        <binary>
            <file>scripts/v.gsflow.mapdata</file>
            <file>docs/html/v.gsflow.mapdata.html</file>
            <file>docs/man/man1/v.gsflow.mapdata.1</file>
        </binary>
    </task>
    <task name="v.gsflow.reaches">
        <description>Build stream "reaches" that link PRMS segments to MODFLOW cells</description>
        <keywords>vector,stream network,hydrology,GSFLOW</keywords>
        <binary>
            <file>docs/html/v.gsflow.reaches.html</file>
            <file>docs/man/man1/v.gsflow.reaches.1</file>
            <file>scripts/v.gsflow.reaches</file>
        </binary>
    </task>
    <task name="v.gsflow.segments">
        <description>Prepares stream segments for PRMS and GSFLOW</description>
        <keywords>vector,stream network,hydrology,GSFLOW</keywords>
        <binary>
            <file>docs/html/v.gsflow.segments.html</file>
            <file>docs/man/man1/v.gsflow.segments.1</file>
            <file>scripts/v.gsflow.segments</file>
        </binary>
    </task>
    <task name="v.habitat.dem">
        <description>Calculates DEM derived characteristics of habitats.</description>
        <keywords>vector,raster,terrain,statistics,sun,zonal statistics</keywords>
        <binary>
            <file>scripts/v.habitat.dem</file>
            <file>docs/man/man1/v.habitat.dem.1</file>
            <file>docs/html/v.habitat.dem.html</file>
        </binary>
    </task>
    <task name="v.in.csv">
        <description>Import a CSV file using pyproj for CRS transformation </description>
        <keywords>vector,import,projection,transformation,point,ASCII,CSV</keywords>
        <binary>
            <file>scripts/v.in.csv</file>
            <file>docs/man/man1/v.in.csv.1</file>
            <file>docs/html/v.in.csv.html</file>
        </binary>
    </task>
    <task name="v.in.gbif">
        <description>importing of GBIF species distribution data</description>
        <keywords>vector,geometry</keywords>
        <binary>
            <file>scripts/v.in.gbif</file>
            <file>docs/man/man1/v.in.gbif.1</file>
            <file>docs/html/v.in.gbif.html</file>
        </binary>
    </task>
    <task name="v.in.geopaparazzi">
        <description>Imports data from Geopaparazzi database.</description>
        <keywords>vector</keywords>
        <binary>
            <file>scripts/v.in.geopaparazzi</file>
            <file>docs/html/v.in.geopaparazzi.html</file>
            <file>docs/man/man1/v.in.geopaparazzi.1</file>
        </binary>
    </task>
    <task name="v.in.gns">
        <description>Imports US-NGA GEOnet Names Server (GNS) country files into a GRASS vector points map.</description>
        <keywords>vector,import,gazetteer</keywords>
        <binary>
            <file>docs/html/v.in.gns.html</file>
            <file>docs/man/man1/v.in.gns.1</file>
            <file>scripts/v.in.gns</file>
        </binary>
    </task>
    <task name="v.in.gps">
        <description>Import waypoints, routes, and tracks from a GPS receiver or GPS download file into a vector map.</description>
        <keywords>vector,import,GPS</keywords>
        <binary>
            <file>docs/html/v.in.gps.html</file>
            <file>docs/man/man1/v.in.gps.1</file>
            <file>scripts/v.in.gps</file>
            <file>etc/grass_write_ascii.style</file>
        </binary>
    </task>
    <task name="v.in.natura2000">
        <description>importing of Natura 2000 spatial data of protected areas</description>
        <keywords>vector,geometry</keywords>
        <binary>
            <file>docs/html/v.in.natura2000.html</file>
            <file>docs/man/man1/v.in.natura2000.1</file>
            <file>scripts/v.in.natura2000</file>
        </binary>
    </task>
    <task name="v.in.ogc">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/v.in.ogc.html</file>
            <file>docs/html/v.in.ogc.features.html</file>
            <file>docs/man/man1/v.in.ogc.1</file>
            <file>docs/man/man1/v.in.ogc.features.1</file>
            <file>scripts/v.in.ogc.features</file>
        </binary>
    </task>
    <task name="v.in.osm">
        <description>Imports OpenStreetMap data into GRASS GIS.</description>
        <keywords>osm,vector,import</keywords>
        <binary>
            <file>docs/man/man1/v.in.osm.1</file>
            <file>docs/html/v.in.osm.html</file>
            <file>scripts/v.in.osm</file>
        </binary>
    </task>
    <task name="v.in.ply">
        <description>Creates a vector map from a PLY file.</description>
        <keywords>vector,import</keywords>
        <binary>
            <file>bin/v.in.ply</file>
            <file>docs/html/v.in.ply.html</file>
            <file>docs/man/man1/v.in.ply.1</file>
        </binary>
    </task>
    <task name="v.in.pygbif">
        <description>Search and import GBIF species distribution data</description>
        <keywords>vector,geometry</keywords>
        <binary>
            <file>docs/html/v.in.pygbif.html</file>
            <file>docs/man/man1/v.in.pygbif.1</file>
            <file>scripts/v.in.pygbif</file>
        </binary>
    </task>
    <task name="v.in.redlist">
        <description>importing of IUCN Red List Spatial Data</description>
        <keywords>vector,geometry</keywords>
        <binary>
            <file>docs/man/man1/v.in.redlist.1</file>
            <file>docs/html/v.in.redlist.html</file>
            <file>scripts/v.in.redlist</file>
        </binary>
    </task>
    <task name="v.in.redwg">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="v.in.survey">
        <description>Creates multiple vector layers from just one textfile</description>
        <keywords>vector,import,ASCII,multiple</keywords>
        <binary>
            <file>scripts/v.in.survey</file>
            <file>docs/man/man1/v.in.survey.1</file>
            <file>docs/html/v.in.survey.html</file>
            <file>docs/html/img_sorted_boundaries.png</file>
            <file>docs/html/img_lyrs_broken.png</file>
            <file>docs/html/img_NC_dxf.png</file>
            <file>docs/html/img_soils_correct.png</file>
        </binary>
    </task>
    <task name="v.in.wfs2">
        <description>Downloads and imports data from WFS server.</description>
        <keywords>vector,import,wfs</keywords>
        <binary>
            <file>etc/v.in.wfs2/__pycache__/wfs_owslib_drv.cpython-37.pyc</file>
            <file>etc/v.in.wfs2/__pycache__/wfs_drv.cpython-37.pyc</file>
            <file>etc/v.in.wfs2/__pycache__/wfs_base.cpython-37.pyc</file>
            <file>etc/v.in.wfs2/wfs_base.py</file>
            <file>etc/v.in.wfs2/wfs_owslib_drv.py</file>
            <file>etc/v.in.wfs2/wfs_drv.py</file>
            <file>docs/html/v.in.wfs2.html</file>
            <file>docs/man/man1/v.in.wfs2.1</file>
            <file>scripts/v.in.wfs2</file>
        </binary>
    </task>
    <task name="v.isochrones">
        <description>Creates isochrones from a road map and starting points</description>
        <keywords>vector,network,isochrones</keywords>
        <binary>
            <file>docs/man/man1/v.isochrones.1</file>
            <file>docs/html/v.isochrones.html</file>
            <file>docs/html/v_isochrones_net.png</file>
            <file>docs/html/v_isochrones_cost.png</file>
            <file>scripts/v.isochrones</file>
        </binary>
    </task>
    <task name="v.krige">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>docs/html/v.krige.html</file>
            <file>docs/man/man1/v.krige.1</file>
            <file>scripts/v.krige</file>
            <file>etc/v.krige/vkrige_wxgui.py</file>
            <file>etc/v.krige/__pycache__/vkrige_wxgui.cpython-37.pyc</file>
        </binary>
    </task>
    <task name="v.kriging">
        <description>Interpolates 2D or 3D raster based on input values located on 2D or 3D point vector layer (method ordinary kriging extended to 3D).</description>
        <keywords>raster,3D raster,ordinary kriging - for 2D and 3D data</keywords>
        <binary>
            <file>docs/html/v.kriging.html</file>
            <file>docs/man/man1/v.kriging.1</file>
            <file>bin/v.kriging</file>
        </binary>
    </task>
    <task name="v.label.sa">
        <description>Create optimally placed labels for vector map(s)</description>
        <keywords>vector,paint labels</keywords>
        <binary>
            <file>docs/man/man1/v.label.sa.1</file>
            <file>docs/html/v.label.sa.html</file>
            <file>docs/html/v_label_sa.jpg</file>
            <file>bin/v.label.sa</file>
        </binary>
    </task>
    <task name="v.lidar.mcc">
        <description>Reclassifies points of a LiDAR point cloud as ground / non-ground using a multiscale curvature based classification algorithm.</description>
        <keywords>vector,lidar,classification</keywords>
        <binary>
            <file>scripts/v.lidar.mcc</file>
            <file>docs/html/v_lidar_mcc.png</file>
            <file>docs/html/v.lidar.mcc.html</file>
            <file>docs/man/man1/v.lidar.mcc.1</file>
        </binary>
    </task>
    <task name="v.link.precip">
        <description>Links time-windows to vector link map.</description>
        <keywords>vector</keywords>
        <binary>
            <file>docs/html/v.link.precip.html</file>
            <file>docs/man/man1/v.link.precip.1</file>
            <file>scripts/v.link.precip</file>
        </binary>
    </task>
    <task name="v.mapcalc">
        <description>Vector map calculator.</description>
        <keywords>vector,algebra</keywords>
        <binary>
            <file>docs/man/man1/v.mapcalc.1</file>
            <file>docs/html/v.mapcalc.html</file>
            <file>scripts/v.mapcalc</file>
        </binary>
    </task>
    <task name="v.maxent.swd">
        <description>Export raster values at given point locations as text file in SWD format for input in Maxent</description>
        <keywords>vector,export,Maxent</keywords>
        <binary>
            <file>scripts/v.maxent.swd</file>
            <file>docs/html/v.maxent.swd.html</file>
            <file>docs/man/man1/v.maxent.swd.1</file>
        </binary>
    </task>
    <task name="v.median">
        <description>Return the barycenter of a cloud of point.</description>
        <keywords>vector</keywords>
        <binary>
            <file>scripts/v.median</file>
            <file>docs/html/v.median.html</file>
            <file>docs/man/man1/v.median.1</file>
        </binary>
    </task>
    <task name="v.mrmr">
        <description>Perform Minimum Redundancy Maximum Relevance Feature Selection on a GRASS Attribute Table</description>
        <keywords></keywords>
        <binary>
            <file>scripts/v.mrmr</file>
            <file>docs/man/man1/v.mrmr.1</file>
            <file>docs/html/v.mrmr.html</file>
        </binary>
    </task>
    <task name="v.neighborhoodmatrix">
        <description>Exports the neighborhood matrix of polygons in a vector map</description>
        <keywords>vector,neighborhood matrix</keywords>
        <binary>
            <file>docs/man/man1/v.neighborhoodmatrix.1</file>
            <file>docs/html/v.neighborhoodmatrix.html</file>
            <file>scripts/v.neighborhoodmatrix</file>
        </binary>
    </task>
    <task name="v.net.curvedarcs">
        <description>Draws curved arcs between points (e.g. flows)</description>
        <keywords>vector,network,flows</keywords>
        <binary>
            <file>scripts/v.net.curvedarcs</file>
            <file>docs/man/man1/v.net.curvedarcs.1</file>
            <file>docs/html/v.net.curvedarcs.html</file>
            <file>docs/html/v_net_curvedarcs2.png</file>
            <file>docs/html/v_net_curvedarcs.png</file>
        </binary>
    </task>
    <task name="v.net.salesman.opt">
        <description>Creates a cycle connecting given nodes (Traveling salesman problem). Note that TSP is NP-hard, heuristic algorithm is used by this module and created cycle may be suboptimal</description>
        <keywords>vector,network,salesman</keywords>
        <binary>
            <file>docs/html/vnetsalesmantime.png</file>
            <file>docs/html/v.net.salesman.opt.html</file>
            <file>docs/html/vnetsalesman.png</file>
            <file>docs/man/man1/v.net.salesman.opt.1</file>
            <file>bin/v.net.salesman.opt</file>
        </binary>
    </task>
    <task name="v.nnstat">
        <description></description>
        <keywords></keywords>
        <binary>
        </binary>
    </task>
    <task name="v.out.gps">
        <description>Exports a vector map to a GPS receiver or file format supported by GPSBabel.</description>
        <keywords>vector,export,GPS</keywords>
        <binary>
            <file>scripts/v.out.gps</file>
            <file>docs/html/v.out.gps.html</file>
            <file>docs/man/man1/v.out.gps.1</file>
        </binary>
    </task>
    <task name="v.out.ply">
        <description>Exports a vector map to a PLY file.</description>
        <keywords>vector,export,ply</keywords>
        <binary>
            <file>docs/html/v.out.ply.html</file>
            <file>docs/man/man1/v.out.ply.1</file>
            <file>bin/v.out.ply</file>
        </binary>
    </task>
    <task name="v.out.png">
        <description>Export vector map as PNG</description>
        <keywords>vector,export,PNG</keywords>
        <binary>
            <file>docs/man/man1/v.out.png.1</file>
            <file>docs/html/v.out.png.html</file>
            <file>scripts/v.out.png</file>
        </binary>
    </task>
    <task name="v.percolate">
        <description>Continuum percolation analysis</description>
        <keywords>vector,percolation,cluster,point</keywords>
        <binary>
            <file>bin/v.percolate</file>
            <file>docs/man/man1/v.percolate.1</file>
            <file>docs/html/v.percolate.html</file>
        </binary>
    </task>
    <task name="v.ply.rectify">
        <description>Imports PLY points, georeferences and exports them.</description>
        <keywords>vector,import,export,rectify</keywords>
        <binary>
            <file>docs/man/man1/v.ply.rectify.1</file>
            <file>docs/html/v.ply.rectify.html</file>
            <file>scripts/v.ply.rectify</file>
        </binary>
    </task>
    <task name="v.profile.points">
        <description>Creates a profile (transect) from points</description>
        <keywords>vector,points,profile,transect,lidar,point cloud</keywords>
        <binary>
            <file>docs/man/man1/v.profile.points.1</file>
            <file>docs/html/v.profile.points.html</file>
            <file>docs/html/v_profile_points_workspace.png</file>
            <file>docs/html/v_profile_points.png</file>
            <file>scripts/v.profile.points</file>
        </binary>
    </task>
    <task name="v.rast.bufferstats">
        <description>Calculates statistics of raster map(s) for buffers around vector geometries. </description>
        <keywords>vector,raster,buffer,statistics</keywords>
        <binary>
            <file>scripts/v.rast.bufferstats</file>
            <file>docs/html/v.rast.bufferstats.html</file>
            <file>docs/man/man1/v.rast.bufferstats.1</file>
        </binary>
    </task>
    <task name="v.sort.points">
        <description>Sorts a vector point map according to a numeric column</description>
        <keywords></keywords>
        <binary>
            <file>docs/html/v.sort.points.html</file>
            <file>docs/man/man1/v.sort.points.1</file>
            <file>scripts/v.sort.points</file>
        </binary>
    </task>
    <task name="v.stats">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/v.stats</file>
            <file>docs/html/v.stats.html</file>
            <file>docs/man/man1/v.stats.1</file>
            <file>etc/v.stats/imp_csv.py</file>
            <file>etc/v.stats/__pycache__/vstats.cpython-37.pyc</file>
            <file>etc/v.stats/__pycache__/imp_csv.cpython-37.pyc</file>
            <file>etc/v.stats/vstats.py</file>
        </binary>
    </task>
    <task name="v.strds.stats">
        <description>Calculates univariate statistics from given space-time raster datasets based on a vector map</description>
        <keywords>vector,temporal,statistics,univariate statistics,querying,attribute table,time,zonal statistics</keywords>
        <binary>
            <file>docs/man/man1/v.strds.stats.1</file>
            <file>docs/html/v.strds.stats.html</file>
            <file>scripts/v.strds.stats</file>
        </binary>
    </task>
    <task name="v.stream.inbasin">
        <description>Subset a stream network into just one of its basins</description>
        <keywords>vector,stream network,basins,hydrology,geomorphology</keywords>
        <binary>
            <file>scripts/v.stream.inbasin</file>
            <file>docs/man/man1/v.stream.inbasin.1</file>
            <file>docs/html/v.stream.inbasin.html</file>
        </binary>
    </task>
    <task name="v.stream.network">
        <description>Build a linked stream network: each link knows its downstream link</description>
        <keywords>vector,stream network,hydrology,geomorphology</keywords>
        <binary>
            <file>docs/man/man1/v.stream.network.1</file>
            <file>docs/html/v.stream.network.html</file>
            <file>scripts/v.stream.network</file>
        </binary>
    </task>
    <task name="v.stream.order">
        <description>Compute the stream order of stream networks stored in a vector map at specific outlet vector points</description>
        <keywords>vector,hydrology,stream network,stream order</keywords>
        <binary>
            <file>scripts/v.stream.order</file>
            <file>docs/man/man1/v.stream.order.1</file>
            <file>docs/html/stream_network.png</file>
            <file>docs/html/stream_network_order_strahler.png</file>
            <file>docs/html/stream_network_order_drwal.png</file>
            <file>docs/html/stream_network_order_scheidegger.png</file>
            <file>docs/html/stream_network_order_shreve.png</file>
            <file>docs/html/v.stream.order.html</file>
        </binary>
    </task>
    <task name="v.stream.profiler">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/v.stream.profiler</file>
        </binary>
    </task>
    <task name="v.surf.icw">
        <description>IDW interpolation, but distance is cost to get to any other site.</description>
        <keywords>vector,surface,interpolation,ICW</keywords>
        <binary>
            <file>scripts/v.surf.icw</file>
            <file>docs/man/man1/v.surf.icw.1</file>
            <file>docs/html/v.surf.icw.html</file>
        </binary>
    </task>
    <task name="v.surf.mass">
        <description>Performs mass-preserving area interpolation.</description>
        <keywords>vector,surface,interpolation,pycnophylactic interpolation</keywords>
        <binary>
            <file>docs/man/man1/v.surf.mass.1</file>
            <file>docs/html/v_surf_mass_voronoi.png</file>
            <file>docs/html/v_surf_mass_pycno.png</file>
            <file>docs/html/v.surf.mass.html</file>
            <file>bin/v.surf.mass</file>
        </binary>
    </task>
    <task name="v.surf.nnbathy">
        <description>Interpolates a raster map using the nnbathy natural neighbor interpolation program.</description>
        <keywords>vector,surface,interpolation,natural,neighbor</keywords>
        <binary>
            <file>etc/v.surf.nnbathy/nnbathy.py</file>
            <file>etc/v.surf.nnbathy/__pycache__/nnbathy.cpython-37.pyc</file>
            <file>docs/man/man1/v.surf.nnbathy.1</file>
            <file>docs/html/v.surf.nnbathy.html</file>
            <file>scripts/v.surf.nnbathy</file>
        </binary>
    </task>
    <task name="v.surf.tps">
        <description>Performs thin plate spline interpolation with regularization and covariables.</description>
        <keywords>vector,surface,interpolation,TPS</keywords>
        <binary>
            <file>docs/html/v_surf_tps.png</file>
            <file>docs/html/v.surf.tps.html</file>
            <file>docs/man/man1/v.surf.tps.1</file>
            <file>bin/v.surf.tps</file>
        </binary>
    </task>
    <task name="v.tin.to.rast">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/v.tin.to.rast</file>
        </binary>
    </task>
    <task name="v.transects">
        <description>Creates transect lines or quadrilateral areas at regular intervals perpendicular to a polyline.</description>
        <keywords>vector,transect</keywords>
        <binary>
            <file>scripts/v.transects</file>
            <file>docs/html/vtransect_options1.jpg</file>
            <file>docs/html/vtransect_options2.jpg</file>
            <file>docs/html/v.transects.html</file>
            <file>docs/man/man1/v.transects.1</file>
        </binary>
    </task>
    <task name="v.vect.stats.multi">
        <description>Computes isochrones from collection point in a sewershed</description>
        <keywords>vector,attribute table,statistics,univariate statistics,zonal statistics,columns</keywords>
        <binary>
            <file>docs/man/man1/v.vect.stats.multi.1</file>
            <file>docs/html/v.vect.stats.multi.html</file>
            <file>scripts/v.vect.stats.multi</file>
        </binary>
    </task>
    <task name="v.vol.idw">
        <description>Interpolates point data to a 3D raster map using Inverse Distance Weighting (IDW) algorithm.</description>
        <keywords>vector,Volume,voxel,interpolation,IDW</keywords>
        <binary>
            <file>bin/v.vol.idw</file>
            <file>docs/man/man1/v.vol.idw.1</file>
            <file>docs/html/v.vol.idw.html</file>
        </binary>
    </task>
    <task name="v.what.rast.multi">
        <description>Uploads values of multiple rasters at positions of vector points to the table.</description>
        <keywords>vector,sampling,raster,position,querying,attribute table,surface information</keywords>
        <binary>
            <file>scripts/v.what.rast.multi</file>
            <file>docs/html/v.what.rast.multi.html</file>
            <file>docs/man/man1/v.what.rast.multi.1</file>
        </binary>
    </task>
    <task name="v.what.spoly">
        <description>Queries vector map with overlaping "spaghetti" polygons (e.g. Landsat footprints) at given location. Polygons must have not intersected boundaries.</description>
        <keywords>vector,topology</keywords>
        <binary>
            <file>docs/html/v.what.spoly.html</file>
            <file>docs/man/man1/v.what.spoly.1</file>
            <file>scripts/v.what.spoly</file>
        </binary>
    </task>
    <task name="v.what.strds.timestamp">
        <description>Uploads space time raster dataset values to the attribute table at positions of vector points in space and time.</description>
        <keywords>vector,temporal,sampling,position,querying,attribute table,timestamp,time</keywords>
        <binary>
            <file>docs/html/v.what.strds.timestamp.html</file>
            <file>docs/man/man1/v.what.strds.timestamp.1</file>
            <file>scripts/v.what.strds.timestamp</file>
        </binary>
    </task>
    <task name="wx.metadata">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>scripts/v.info.iso</file>
            <file>scripts/g.gui.metadata</file>
            <file>scripts/m.csw.update</file>
            <file>scripts/db.csw.harvest</file>
            <file>scripts/r.info.iso</file>
            <file>scripts/g.gui.cswbrowser</file>
            <file>scripts/db.csw.admin</file>
            <file>scripts/db.csw.run</file>
            <file>scripts/t.info.iso</file>
            <file>etc/wx.metadata/mdlib/__init__.py</file>
            <file>etc/wx.metadata/mdlib/mdjinjaparser.py</file>
            <file>etc/wx.metadata/mdlib/mdeditorfactory.py</file>
            <file>etc/wx.metadata/mdlib/cswutil.py</file>
            <file>etc/wx.metadata/mdlib/mdgrass.py</file>
            <file>etc/wx.metadata/mdlib/cswlib.py</file>
            <file>etc/wx.metadata/mdlib/dependency.py</file>
            <file>etc/wx.metadata/mdlib/globalvar.py</file>
            <file>etc/wx.metadata/mdlib/mdpdffactory.py</file>
            <file>etc/wx.metadata/mdlib/mdpdftheme.py</file>
            <file>etc/wx.metadata/mdlib/mdutil.py</file>
            <file>etc/wx.metadata/mdlib/__pycache__/mdjinjaparser.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/dependency.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/mdpdftheme.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/globalvar.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/mdeditorfactory.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/cswlib.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/mdgrass.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/mdpdffactory.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/mdutil.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/__init__.cpython-37.pyc</file>
            <file>etc/wx.metadata/mdlib/__pycache__/cswutil.cpython-37.pyc</file>
            <file>etc/wx.metadata/config/keywordConcepts.xml</file>
            <file>etc/wx.metadata/config/record_metadata_dc.html</file>
            <file>etc/wx.metadata/config/keywordGroups.xml</file>
            <file>etc/wx.metadata/config/connections_resources.xml</file>
            <file>etc/wx.metadata/config/xml_render.html</file>
            <file>etc/wx.metadata/config/default-sample.cfg</file>
            <file>etc/wx.metadata/config/init_md.txt</file>
            <file>etc/wx.metadata/config/keywordThemes.xml</file>
            <file>etc/wx.metadata/config/connections_resources.xsd</file>
            <file>etc/wx.metadata/config/record_metadata_gmd.html</file>
            <file>etc/wx.metadata/config/API-cases.ods</file>
            <file>etc/wx.metadata/config/service_metadata.html</file>
            <file>etc/wx.metadata/config/logo_variant_bg.png</file>
            <file>etc/wx.metadata/config/xml_highlight.html</file>
            <file>etc/wx.metadata/profiles/temporalProfile.xml</file>
            <file>etc/wx.metadata/profiles/inspireProfile.xml</file>
            <file>etc/wx.metadata/profiles/basicProfile.xml</file>
            <file>docs/html/db.csw.admin.html</file>
            <file>docs/html/g.gui.cswbrowser.html</file>
            <file>docs/html/m.csw.update.html</file>
            <file>docs/html/r.info.iso.html</file>
            <file>docs/html/g.gui.metadata.html</file>
            <file>docs/html/v.info.iso.html</file>
            <file>docs/html/db.csw.harvest.html</file>
            <file>docs/html/db.csw.run.html</file>
            <file>docs/html/t.info.iso.html</file>
            <file>docs/man/man1/db.csw.run.1</file>
            <file>docs/man/man1/g.gui.cswbrowser.1</file>
            <file>docs/man/man1/m.csw.update.1</file>
            <file>docs/man/man1/r.info.iso.1</file>
            <file>docs/man/man1/t.info.iso.1</file>
            <file>docs/man/man1/db.csw.harvest.1</file>
            <file>docs/man/man1/v.info.iso.1</file>
            <file>docs/man/man1/db.csw.admin.1</file>
            <file>docs/man/man1/g.gui.metadata.1</file>
        </binary>
    </task>
    <task name="wx.mwprecip">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>etc/g.gui.mwprecip/mw_util.py</file>
            <file>etc/g.gui.mwprecip/pgwrapper.py</file>
            <file>etc/g.gui.mwprecip/mw3.py</file>
            <file>etc/g.gui.mwprecip/__pycache__/pgwrapper.cpython-37.pyc</file>
            <file>etc/g.gui.mwprecip/__pycache__/mw_util.cpython-37.pyc</file>
            <file>etc/g.gui.mwprecip/__pycache__/mw3.cpython-37.pyc</file>
            <file>scripts/g.gui.mwprecip</file>
        </binary>
    </task>
    <task name="wx.stream">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>etc/wxpython/gui_modules/rstream_panelOne.py</file>
            <file>etc/wxpython/gui_modules/rstream_ImageViewer.py</file>
            <file>etc/wxpython/gui_modules/ImageViewer.py</file>
            <file>etc/wxpython/gui_modules/__pycache__/rstream.cpython-37.pyc</file>
            <file>etc/wxpython/gui_modules/__pycache__/rstream_ImageViewer.cpython-37.pyc</file>
            <file>etc/wxpython/gui_modules/rstream.py</file>
        </binary>
    </task>
    <task name="wx.wms">
        <description></description>
        <keywords></keywords>
        <binary>
            <file>etc/gui/wxpython/gui_modules/wms/parse.py</file>
            <file>etc/gui/wxpython/gui_modules/wms/ServersList.xml</file>
            <file>etc/gui/wxpython/gui_modules/wms/LoadConfig.py</file>
            <file>etc/gui/wxpython/gui_modules/wms/__init__.py</file>
            <file>etc/gui/wxpython/gui_modules/wms/ServerInfoAPIs.py</file>
            <file>etc/gui/wxpython/gui_modules/wms/WMSMapDisplay.py</file>
            <file>etc/gui/wxpython/gui_modules/wms/wmsmenu.py</file>
            <file>etc/gui/wxpython/gui_modules/wms/addserver.py</file>
        </binary>
    </task>
</addons>
